EU Headquarters: ENGINO-NET LIMITEDP.O.BOX 72100, 4200Limassol, Cyprus, EU Tel: +357 25 821960Fax: +357 25 821961Email: info@engino.comWeb: www.engino.comUK Branch: ENGINO TOY SYSTEMS LIMITED4 Capricorn Centre,Cranes Farm Road,Basildon, Essex, SS14 3JJEmail: uk.sales@engino.com© 2024 Engino-Net Limited. All Rights Reserved.®THE REAL STEM EXPERIENCE20USA Branch: INNOLABS LTD2360 Steinway StreetAstoria, NY 11105Email: info@innolabs.us2024
Products subject to change without notice. Information is correct at the time of print.1.5-3babyengineers3-6junior engineers6-9young engineers9+masterengineers03. 04. 05.07.08.10.13.19.22.25.30.33.The SystemManufacturingResearch & DevelopmentCompany HistoryQboidz Building SystemClassic Building SystemMechanics Building SystemSTEM LevelsBABY QBOIDZ SeriesQBOIDZ Series37.43.46.49.53.62.67.71.95.101.107.CREATIVE BUILDER Multimodel Series STEAM LABS SeriesCODING LAB SeriesINVENTOR SeriesCREATIVE BUILDER Designer Series CREATIVE BUILDER Machinery Series DISCOVERING STEM SeriesCREATIVE ENGINEERING Series MEGA BUILDS SeriesContentsSTEAM LABS JUNIOR Series 12 EPISODES Bundle Sets MAKERSPACE SeriesSTEM SPINNERS Series
Products subject to change without notice. Information is correct at the time of print.1.5-3babyengineers3-6junior engineers6-9young engineers9+masterengineers03. 04. 05.07.08.10.13.19.22.25.30.33.The SystemManufacturingResearch & DevelopmentCompany HistoryQboidz Building SystemClassic Building SystemMechanics Building SystemSTEM LevelsBABY QBOIDZ SeriesQBOIDZ Series37.43.46.49.53.62.67.71.95.101.107.CREATIVE BUILDER Multimodel Series STEAM LABS SeriesCODING LAB SeriesINVENTOR SeriesCREATIVE BUILDER Designer Series CREATIVE BUILDER Machinery Series DISCOVERING STEM SeriesCREATIVE ENGINEERING Series MEGA BUILDS SeriesContentsSTEAM LABS JUNIOR Series 12 EPISODES Bundle Sets MAKERSPACE SeriesSTEM SPINNERS Series
Engino-net Limited was founded in 2004 by Costas Sisamos in Cyprus. With degrees in Mechanical Engineering and Education, Costas worked for 10 years in Primary schools teaching Design & Technology. With a vision to inspire his students to become better problem solvers and future innovators, Costas started designing a new system of modular connectors that would enable students to build fast and easy fully functional technological models. The award of research capital by European Union supported the first 3 ® years of development and the first ENGINO sets were launched in 2007 attracting the interest of international toy buyers and educational specialists. The patented ability of the system to snap fit on multiple locations while maintaining simple manufacturing methods was a feature that unleashed great potential. Since the launch, the system has received several local and international awards, while the company's R&D team continues to develop new ® innovations taking ENGINO to the 3rd generation of construction toys. Now, with a product range of more than 60 different sets, ranging from simple structures and mechanisms to solar energy sets and wireless robotics, ® ENGINO is one of the fastest growing companies in the field of STEM & Robotics. The company is one of the very few in the industry that has invested significantly to establish a European fully-automated factory, introducing vertical integration, from conception to manufacturing and retail.A Toy System Emerging from Education Transforming Innovative Ideas into Successful Products® Since its inception, ENGINO has been focused on innovation and creativity. From drawing board to market shelves, several skills are required and a team of exceptional professionals has been assembled. This includes academics, engineers, product designers, illustrators, educational specialists and marketing experts. All research is carried out in house which assures effective communication between the team members and faster development time. In fact R&D has been a key element to ®ENGINO 's success, with multible research projects running simultaneously. Several patents and industrial designs have been issued and others are still pending. Our factory is equipped with the most modern software and CNC machinery to prototype and create new parts, while everything is tested vigorously to meet the highest standards of quality and functionality.Company HistoryResearch & Developmentpage03page04
Engino-net Limited was founded in 2004 by Costas Sisamos in Cyprus. With degrees in Mechanical Engineering and Education, Costas worked for 10 years in Primary schools teaching Design & Technology. With a vision to inspire his students to become better problem solvers and future innovators, Costas started designing a new system of modular connectors that would enable students to build fast and easy fully functional technological models. The award of research capital by European Union supported the first 3 ® years of development and the first ENGINO sets were launched in 2007 attracting the interest of international toy buyers and educational specialists. The patented ability of the system to snap fit on multiple locations while maintaining simple manufacturing methods was a feature that unleashed great potential. Since the launch, the system has received several local and international awards, while the company's R&D team continues to develop new ® innovations taking ENGINO to the 3rd generation of construction toys. Now, with a product range of more than 60 different sets, ranging from simple structures and mechanisms to solar energy sets and wireless robotics, ® ENGINO is one of the fastest growing companies in the field of STEM & Robotics. The company is one of the very few in the industry that has invested significantly to establish a European fully-automated factory, introducing vertical integration, from conception to manufacturing and retail.A Toy System Emerging from Education Transforming Innovative Ideas into Successful Products® Since its inception, ENGINO has been focused on innovation and creativity. From drawing board to market shelves, several skills are required and a team of exceptional professionals has been assembled. This includes academics, engineers, product designers, illustrators, educational specialists and marketing experts. All research is carried out in house which assures effective communication between the team members and faster development time. In fact R&D has been a key element to ®ENGINO 's success, with multible research projects running simultaneously. Several patents and industrial designs have been issued and others are still pending. Our factory is equipped with the most modern software and CNC machinery to prototype and create new parts, while everything is tested vigorously to meet the highest standards of quality and functionality.Company HistoryResearch & Developmentpage03page04
B E S T P R A C T I C E S M EMOST INNOVATIVE TOY 2010®Since 2012, all manufacturing of ENGINO has been taking place in Europe, Cyprus, at our own fully automated factory. The factory has 3 sections: tool making, injection molding of plastic parts and packaging, allowing smooth control of the entire production process. The implementation of lean manufacturing methods and high level of quality control has led to the minimization of the production cost while also assuring fast lead-times and consistent quality.Producing Effectively in Europe®At ENGINO , safety of kids is our top priority. Our organization, to guarantee compliance with the latest toy safety standards, implements very tight design and production processes, controlled through a vigorous ISO9001 management system. All our products are tested every year for mechanical and chemical properties and are certified by internationally approved labs for EN71 part 1-3, ASTMF963-17, CPSC, Pthalates, EN62115, PAHs, SVHC and many more. Assuring our QualityManufacturingBrand Awardspage05
B E S T P R A C T I C E S M EMOST INNOVATIVE TOY 2010®Since 2012, all manufacturing of ENGINO has been taking place in Europe, Cyprus, at our own fully automated factory. The factory has 3 sections: tool making, injection molding of plastic parts and packaging, allowing smooth control of the entire production process. The implementation of lean manufacturing methods and high level of quality control has led to the minimization of the production cost while also assuring fast lead-times and consistent quality.Producing Effectively in Europe®At ENGINO , safety of kids is our top priority. Our organization, to guarantee compliance with the latest toy safety standards, implements very tight design and production processes, controlled through a vigorous ISO9001 management system. All our products are tested every year for mechanical and chemical properties and are certified by internationally approved labs for EN71 part 1-3, ASTMF963-17, CPSC, Pthalates, EN62115, PAHs, SVHC and many more. Assuring our QualityManufacturingBrand Awardspage05
page07page08The “Qboidz”, which consists of cube-like bricks for very young children starting at the age of 1.5, continued with the addition of special connecting ®rods for 3+, the “Classic”, which is the original ENGINO for kids of age 6 and above, and the more advanced “Mechanics” with precision engineered technical parts and gearing systems for children over 9 years old.®The ENGINO System has now evolved into 4 Sub-Systems3+ Qboidz6+ Classic9+ Mechanics®ENGINO Building SystemBaby Qboidz / Qboidz Building System1.5+One of the main reasons behind the inception of “QBOIDZ” was the inability of children under the age of 6 to linearly assemble the ®“Classic” ENGINO components. Extensive research with cognitive psychologists and developmental experts showed that children of such younger age, do not have adequate skills for a two-step side-lateral connection and neither the abstract reasoning to comprehend it. An innovative solution was developed in 2016 by designing a new type of “end-receptor”, a joint that would allow direct linear assembly with a single, one-step snap action. The new system became an immediate success, enabling children even from the age of 3 to ®achieve the ENGINO snap-fit connection! Together with these rods, a library of cubic blocks has been developed which further lowers the pay-age to 1.5 years for babies. Like most traditional large-scale brick systems, toddlers could stack one block over the other and gradually engage into more complex building. The cubic shape also inspired the name “QBOIDZ”! ®What differentiates “Qboidz” blocks from any other brick systems, is the incorporation of the original ENGINO snap-fit geometries on the cube’s ®body! By selectively embedding the ENGINO bi-directional receptors and the mushroom shaped plugs on the block’s sides, the possibility to connect rods onto blocks became a reality. Our QBOIDZ system is perhaps the only constructional toy that grows with the child, respecting his or her needs at every stage of their development, from the age of 3 to 6. Our theory which concurs with latest neurological research- is that by playing with blocks signals are sent to the brain and activate a particular area which relates to spatial perception and three-dimensional thinking. By stacking bricks, one section of this area is activated. More and more neurons are stimulated as children play and reconfigure their blocks. At the age of 1.5 to 3, stacking bricks is one of the healthiest forms of play for kids. However, as they grow older, different levels of stimuli are needed to enhance their spatial perception. Traditional bricks only allow stacking, limiting brain activation to the particular region only. However, with QBOIDZ, side-building is possible, adding complexity to the creative process. This complexity activates adjacent neurons not previously triggered and create new neuron connections called synapses. There are critical periods during a child’s development which favor specific neural connections. At this age of Junior Engineers, these brain cell synapses are permanent, much like when learning our first language. By engaging the child in a more complex constructional play, it is possible to establish such new neuro pathways which relate not only to Spatial awareness but also to Engineering Creativity and Innovative thinking. ®At ENGINO research center we call these stages Levels of Dimensional Thinking™.1.5+ Baby Qboidz3+
page07page08The “Qboidz”, which consists of cube-like bricks for very young children starting at the age of 1.5, continued with the addition of special connecting ®rods for 3+, the “Classic”, which is the original ENGINO for kids of age 6 and above, and the more advanced “Mechanics” with precision engineered technical parts and gearing systems for children over 9 years old.®The ENGINO System has now evolved into 4 Sub-Systems3+ Qboidz6+ Classic9+ Mechanics®ENGINO Building SystemBaby Qboidz / Qboidz Building System1.5+One of the main reasons behind the inception of “QBOIDZ” was the inability of children under the age of 6 to linearly assemble the ®“Classic” ENGINO components. Extensive research with cognitive psychologists and developmental experts showed that children of such younger age, do not have adequate skills for a two-step side-lateral connection and neither the abstract reasoning to comprehend it. An innovative solution was developed in 2016 by designing a new type of “end-receptor”, a joint that would allow direct linear assembly with a single, one-step snap action. The new system became an immediate success, enabling children even from the age of 3 to ®achieve the ENGINO snap-fit connection! Together with these rods, a library of cubic blocks has been developed which further lowers the pay-age to 1.5 years for babies. Like most traditional large-scale brick systems, toddlers could stack one block over the other and gradually engage into more complex building. The cubic shape also inspired the name “QBOIDZ”! ®What differentiates “Qboidz” blocks from any other brick systems, is the incorporation of the original ENGINO snap-fit geometries on the cube’s ®body! By selectively embedding the ENGINO bi-directional receptors and the mushroom shaped plugs on the block’s sides, the possibility to connect rods onto blocks became a reality. Our QBOIDZ system is perhaps the only constructional toy that grows with the child, respecting his or her needs at every stage of their development, from the age of 3 to 6. Our theory which concurs with latest neurological research- is that by playing with blocks signals are sent to the brain and activate a particular area which relates to spatial perception and three-dimensional thinking. By stacking bricks, one section of this area is activated. More and more neurons are stimulated as children play and reconfigure their blocks. At the age of 1.5 to 3, stacking bricks is one of the healthiest forms of play for kids. However, as they grow older, different levels of stimuli are needed to enhance their spatial perception. Traditional bricks only allow stacking, limiting brain activation to the particular region only. However, with QBOIDZ, side-building is possible, adding complexity to the creative process. This complexity activates adjacent neurons not previously triggered and create new neuron connections called synapses. There are critical periods during a child’s development which favor specific neural connections. At this age of Junior Engineers, these brain cell synapses are permanent, much like when learning our first language. By engaging the child in a more complex constructional play, it is possible to establish such new neuro pathways which relate not only to Spatial awareness but also to Engineering Creativity and Innovative thinking. ®At ENGINO research center we call these stages Levels of Dimensional Thinking™.1.5+ Baby Qboidz3+
page09page10Fifth-dimensional Thinking - Coding with robotic parts: There are three generations of construction toys. The 1st was that of building structural models. The 2nd was the inclusion of mechanical elements that added motion to the models. New technologies introduced the 3rd generation, that of robotized constructions. The ®compatibility of the Qboidz system with ENGINO extends to programmable controllers and sensors! This step into technology helps students acquire 21st century skills and learn coding through interdisciplinary STEM challenges.Classic Building System6+®The ENGINO classic building system is perhaps the most advanced and versatile three dimensional construction toy system in the market today. The patented design of the parts allows connectivity of up to 6 sides simultaneously, while the unique extendable components lead to builds that were previously unthinkable, unleashing children’s creativity and imagination. The progressive building capability from simple to advanced is ®a consistent characteristic of all ENGINO solutions, from tangible plastic parts to lesson plans and software, and it is at the core DNA of our pedagogical philosophy. 1. Building in one direction…®The ENGINO rods can be connected in-line without the need of an intermediate connector, almost reducing to half the quantity of parts required to build models as compared to other systems. This is because the connecting plug’s geometry is already embedded within each rod. The biggest advantage in requiring half the number of parts, besides simplicity, is the fact that students will need half the time to build their model, saving time to be allocated for being more creative by trying their own ideas. 2. Building in two directions…The same rods which can be assembled horizontally in-line can also be connected vertically sideways! The unique plug geometry can click on any of the bi-directional side-holes of the rods, meaning that students can build without needing a new component- in two directions! Even though this is a big advantage by itself, the biggest innovation is that the rods can snap-fit on both sides of the rods simultaneously, something that greatly enhances the expandability of the system and reduces even more the number of parts needed to construct a model.3. Building in three directions…®The Classic ENGINO system consists of “rods” and “connectors”. In essence, these “connectors” share the same geometrical designs as the rods, establishing a multiplier effect that enables a further reduction in the number of parts needed to construct a model. In most cases this means 4 times less parts are required to build a model as compared to other building systems. In effect, this means that students can not only create a model 4 times faster, but they can spent 4 times less effort to modify and experiment! Forth-dimensional Thinking - Compatible with Engino system: The Qboidz parts, both blocks and beams, have embedded in their design the same geometries as the ®standard ENGINO system that is suitable for older children, aged 6+. This ensures a smooth transition from one level to the next and enables full compatibility between a wide library of parts. By allowing growing children to combine these parts and work on a finer grid system, they can create more complex technical models.Three-dimensional Thinking - Combining blocks with beams: The next step is to fine tune the skills acquired in the previous level. Qboidz blocks can connect to a range of beams designed with a plethora of male and female connecting nodes in order to allow for more detailed constructions. These beams require a higher force of assembly, challenging older preschool children.Two-dimensional Thinking - Connecting blocks to the side: Connect the Qboidz blocks sideways to explore the 3D space, increasing building complexity while further developing hand-eye coordination, dexterity skills and spatial perception.One-dimensional Thinking - Stacking blocks vertically:Stack the patented cubic blocks (named Qboidz) vertically as with traditional brick systems.
page09page10Fifth-dimensional Thinking - Coding with robotic parts: There are three generations of construction toys. The 1st was that of building structural models. The 2nd was the inclusion of mechanical elements that added motion to the models. New technologies introduced the 3rd generation, that of robotized constructions. The ®compatibility of the Qboidz system with ENGINO extends to programmable controllers and sensors! This step into technology helps students acquire 21st century skills and learn coding through interdisciplinary STEM challenges.Classic Building System6+®The ENGINO classic building system is perhaps the most advanced and versatile three dimensional construction toy system in the market today. The patented design of the parts allows connectivity of up to 6 sides simultaneously, while the unique extendable components lead to builds that were previously unthinkable, unleashing children’s creativity and imagination. The progressive building capability from simple to advanced is ®a consistent characteristic of all ENGINO solutions, from tangible plastic parts to lesson plans and software, and it is at the core DNA of our pedagogical philosophy. 1. Building in one direction…®The ENGINO rods can be connected in-line without the need of an intermediate connector, almost reducing to half the quantity of parts required to build models as compared to other systems. This is because the connecting plug’s geometry is already embedded within each rod. The biggest advantage in requiring half the number of parts, besides simplicity, is the fact that students will need half the time to build their model, saving time to be allocated for being more creative by trying their own ideas. 2. Building in two directions…The same rods which can be assembled horizontally in-line can also be connected vertically sideways! The unique plug geometry can click on any of the bi-directional side-holes of the rods, meaning that students can build without needing a new component- in two directions! Even though this is a big advantage by itself, the biggest innovation is that the rods can snap-fit on both sides of the rods simultaneously, something that greatly enhances the expandability of the system and reduces even more the number of parts needed to construct a model.3. Building in three directions…®The Classic ENGINO system consists of “rods” and “connectors”. In essence, these “connectors” share the same geometrical designs as the rods, establishing a multiplier effect that enables a further reduction in the number of parts needed to construct a model. In most cases this means 4 times less parts are required to build a model as compared to other building systems. In effect, this means that students can not only create a model 4 times faster, but they can spent 4 times less effort to modify and experiment! Forth-dimensional Thinking - Compatible with Engino system: The Qboidz parts, both blocks and beams, have embedded in their design the same geometries as the ®standard ENGINO system that is suitable for older children, aged 6+. This ensures a smooth transition from one level to the next and enables full compatibility between a wide library of parts. By allowing growing children to combine these parts and work on a finer grid system, they can create more complex technical models.Three-dimensional Thinking - Combining blocks with beams: The next step is to fine tune the skills acquired in the previous level. Qboidz blocks can connect to a range of beams designed with a plethora of male and female connecting nodes in order to allow for more detailed constructions. These beams require a higher force of assembly, challenging older preschool children.Two-dimensional Thinking - Connecting blocks to the side: Connect the Qboidz blocks sideways to explore the 3D space, increasing building complexity while further developing hand-eye coordination, dexterity skills and spatial perception.One-dimensional Thinking - Stacking blocks vertically:Stack the patented cubic blocks (named Qboidz) vertically as with traditional brick systems.
page11page124. Building in fixed angles… Modelling real-life machines and buildings requires also connecting components at an angle other than 90 degrees. The system includes 45-degree angular parts, which with the same ease can snap-fit on the rods and connectors to create more complex models. 5. Triangulating… To make a frame stronger a technique called Triangulation is used, something which is ®clearly visible in many large bridges and wooden structures. With ENGINO , triangulation is very easy to achieve, ideally with side-lengths of 15 units. Converting a structure from a flat two-dimensional shape to a three-dimensional one, for example adding pillars on floors ®when making a model of a house, is straight forward with ENGINO . Simply snap a rod directly on the ELBOW or TEE connectors! These provide a change in the plane of building, without having any elements protruding, allowing also easy modification at any time without having to substitute these connectors with different ones. 6. Connecting in every angle… The potential of the system is unleashed by “cloning” the innovative geometries to pivoted joints. A specially designed component acts as a pivot (called internally “swing rod”) and allows any angle of the 3D space to be created, not restricted by 45 or 90 degrees!7. Connecting everywhere… ®ENGINO rods can connect one after the other and achieve longer sizes. However, these are restricted by the size of the smallest part, our unit dimension of 12.7mm. But how can a child build creatively when they want to freely triangulate a model, and the hypotenuse length is not matching the unit’s multiple? This is an unsolvable problem, and no building system has so far managed to solve it. Based on Pythagoras theorem, we should cut short a component to reach the required length, but this is of course not possible. ®At ENGINO we like to keep things simple for kids and assign the hard, engineering problems to our researchers. An innovative solution has been developed: our extendable rods. With just 2 pieces that interlock, kids can twist and extend creating any length possible! This amazing feature, when combined with the pivoted joints, can lead to the creation of any triangular shape and to constructions that were previously inconceivable! The extendable rod replaces the need of numerous other components and maximizes the building capabilities of the system.8. Connecting DIY surfaces…®The assembled components of ENGINO can have a flush surface with no protrusions. This has been designed on purpose for a very unique and specific reason: To allow children to cover their models with flat surface panels without obstructions. These panels can be from paper, acrylic or wooden materials, which kids can draw, paint and cut to their own ideas, making the models more realistic. This feature is the first step into the maker-space era providing a bridge between construction toys and real DIY projects. Surfaces can attach ®very easily on ENGINO models by using the latest designed lock-pins, which secure the panels on the Engino rods with a simple click!9. Driving the Maker-space revolution…®The original problem ENGINO tried to solve, was how to build models made from wooden dowels, for -what back in 2004- was a “Design & Technology” classroom. This inspired the design of plastic modular wood connectors that could be used either as part of a toy or as consumables in DIY projects. The latest trends in education, with the Maker-space ®revolution, has created a new need for DIY building materials, making the ENGINO wood connectors the ideal system to craft models with ease. These components are fully ®compatible with all other ENGINO parts as they share same connecting features. This helps create hybrid models that combine plastic parts with wooden beams which can be cut to any size by students or hobby engineers. These wood connectors can also integrate with the DIY surfaces and their lock-pins, empowering open-ended projects for children and adults alike!
page11page124. Building in fixed angles… Modelling real-life machines and buildings requires also connecting components at an angle other than 90 degrees. The system includes 45-degree angular parts, which with the same ease can snap-fit on the rods and connectors to create more complex models. 5. Triangulating… To make a frame stronger a technique called Triangulation is used, something which is ®clearly visible in many large bridges and wooden structures. With ENGINO , triangulation is very easy to achieve, ideally with side-lengths of 15 units. Converting a structure from a flat two-dimensional shape to a three-dimensional one, for example adding pillars on floors ®when making a model of a house, is straight forward with ENGINO . Simply snap a rod directly on the ELBOW or TEE connectors! These provide a change in the plane of building, without having any elements protruding, allowing also easy modification at any time without having to substitute these connectors with different ones. 6. Connecting in every angle… The potential of the system is unleashed by “cloning” the innovative geometries to pivoted joints. A specially designed component acts as a pivot (called internally “swing rod”) and allows any angle of the 3D space to be created, not restricted by 45 or 90 degrees!7. Connecting everywhere… ®ENGINO rods can connect one after the other and achieve longer sizes. However, these are restricted by the size of the smallest part, our unit dimension of 12.7mm. But how can a child build creatively when they want to freely triangulate a model, and the hypotenuse length is not matching the unit’s multiple? This is an unsolvable problem, and no building system has so far managed to solve it. Based on Pythagoras theorem, we should cut short a component to reach the required length, but this is of course not possible. ®At ENGINO we like to keep things simple for kids and assign the hard, engineering problems to our researchers. An innovative solution has been developed: our extendable rods. With just 2 pieces that interlock, kids can twist and extend creating any length possible! This amazing feature, when combined with the pivoted joints, can lead to the creation of any triangular shape and to constructions that were previously inconceivable! The extendable rod replaces the need of numerous other components and maximizes the building capabilities of the system.8. Connecting DIY surfaces…®The assembled components of ENGINO can have a flush surface with no protrusions. This has been designed on purpose for a very unique and specific reason: To allow children to cover their models with flat surface panels without obstructions. These panels can be from paper, acrylic or wooden materials, which kids can draw, paint and cut to their own ideas, making the models more realistic. This feature is the first step into the maker-space era providing a bridge between construction toys and real DIY projects. Surfaces can attach ®very easily on ENGINO models by using the latest designed lock-pins, which secure the panels on the Engino rods with a simple click!9. Driving the Maker-space revolution…®The original problem ENGINO tried to solve, was how to build models made from wooden dowels, for -what back in 2004- was a “Design & Technology” classroom. This inspired the design of plastic modular wood connectors that could be used either as part of a toy or as consumables in DIY projects. The latest trends in education, with the Maker-space ®revolution, has created a new need for DIY building materials, making the ENGINO wood connectors the ideal system to craft models with ease. These components are fully ®compatible with all other ENGINO parts as they share same connecting features. This helps create hybrid models that combine plastic parts with wooden beams which can be cut to any size by students or hobby engineers. These wood connectors can also integrate with the DIY surfaces and their lock-pins, empowering open-ended projects for children and adults alike!
page13page14Mechanics Building System9+®By 2012, ENGINO had already started investing heavily in further research to develop our 3rd generation of construction toys. These are called in STEM academic circles Robotized Construction Kits. Such advanced kits require high-precision mechanisms and more robust constructions that could remain assembled and functioning even after vigorous use, such as in robotic competitions.®The ENGINO philosophy prioritizes ease of play, creativity and pedagogy, rather than technical modeling. But, as more and more electronic ®controllers and sensors kept being added to the ENGINO robots, the need for a specialized system became evident by 2017. That was when a big research project started to design, prototype, test and bring into production a new technical system that would still be abiding to our pedagogical values. Our new Mechanics System, launched and patented early 2021, consists of a library of components that are working in conjunction with the Classic ®ENGINO parts, preserving as much as possible the attributes of creativity and reconfigurability of the original system. Students from the age of 9 can actively engage in advanced model's creation and dig further into the secrets of Science and Technology. As they grow older, they can use more specialized components to develop elaborate mechanisms that simulate real-life machines and robots. The Mechanics library includes around 100 different components, including new wheels and axles, beams and connectors and some impressing locking technologies, all compatible with the ®ENGINO Classic parts! How the System WorksTo be able to construct more robust models, the Mechanics Beams are half-unit thickness as compared to the Classic Rods (6.2mm). They have simple cylindrical holes that allow a thick, strong axle to pass through and rotate freely with minimal friction. The unique design of these beams is to incorporate an octagonal base at every hole, which allows locking every 45 degrees when needed. Beams help create a strong structural frame and plates add robustness by providing more compact spacing.1. Connecting the Beams…Beams can connect adjacently with each other, like bricks, by using our specially designed snap-fit axles, yet, they can be also be connected linearly at various angles using our new patented beam connectors!®One of the biggest innovations of the ENGINO Mechanics system is how the Beams can connect easily to the Classic System using the special axle-adaptors. 2. Connecting the Wheels…These axle-adaptors besides connecting Classic parts to Mechanics, they are best utilized for easily attaching our new low-friction wheels and gears to models. With larger models, it is possible to have the wheels breaking off due to their heavier weight. To solve this problem, a special ®component has been designed to be a hybrid between ENGINO Classic rods and Mechanics’ beams. This part enables a fully secure connection so that wheels or gears can remain attached to the models. There are various parts that combine these same geometries, offering a wide range of options to young builders for creating more functional mechanical and robotized models. 90° Beamconnector45° Beamconnector180° BeamconnectorAxle adaptor from ® ENGINO classic to mechanics beamOne-unit long axlefor connecting afree-spinning wheelor two beamsHalf-unit long axlefor connecting gears and beamsLock-pin to keep wheels or other parts in-place when under stress
page13page14Mechanics Building System9+®By 2012, ENGINO had already started investing heavily in further research to develop our 3rd generation of construction toys. These are called in STEM academic circles Robotized Construction Kits. Such advanced kits require high-precision mechanisms and more robust constructions that could remain assembled and functioning even after vigorous use, such as in robotic competitions.®The ENGINO philosophy prioritizes ease of play, creativity and pedagogy, rather than technical modeling. But, as more and more electronic ®controllers and sensors kept being added to the ENGINO robots, the need for a specialized system became evident by 2017. That was when a big research project started to design, prototype, test and bring into production a new technical system that would still be abiding to our pedagogical values. Our new Mechanics System, launched and patented early 2021, consists of a library of components that are working in conjunction with the Classic ®ENGINO parts, preserving as much as possible the attributes of creativity and reconfigurability of the original system. Students from the age of 9 can actively engage in advanced model's creation and dig further into the secrets of Science and Technology. As they grow older, they can use more specialized components to develop elaborate mechanisms that simulate real-life machines and robots. The Mechanics library includes around 100 different components, including new wheels and axles, beams and connectors and some impressing locking technologies, all compatible with the ®ENGINO Classic parts! How the System WorksTo be able to construct more robust models, the Mechanics Beams are half-unit thickness as compared to the Classic Rods (6.2mm). They have simple cylindrical holes that allow a thick, strong axle to pass through and rotate freely with minimal friction. The unique design of these beams is to incorporate an octagonal base at every hole, which allows locking every 45 degrees when needed. Beams help create a strong structural frame and plates add robustness by providing more compact spacing.1. Connecting the Beams…Beams can connect adjacently with each other, like bricks, by using our specially designed snap-fit axles, yet, they can be also be connected linearly at various angles using our new patented beam connectors!®One of the biggest innovations of the ENGINO Mechanics system is how the Beams can connect easily to the Classic System using the special axle-adaptors. 2. Connecting the Wheels…These axle-adaptors besides connecting Classic parts to Mechanics, they are best utilized for easily attaching our new low-friction wheels and gears to models. With larger models, it is possible to have the wheels breaking off due to their heavier weight. To solve this problem, a special ®component has been designed to be a hybrid between ENGINO Classic rods and Mechanics’ beams. This part enables a fully secure connection so that wheels or gears can remain attached to the models. There are various parts that combine these same geometries, offering a wide range of options to young builders for creating more functional mechanical and robotized models. 90° Beamconnector45° Beamconnector180° BeamconnectorAxle adaptor from ® ENGINO classic to mechanics beamOne-unit long axlefor connecting afree-spinning wheelor two beamsHalf-unit long axlefor connecting gears and beamsLock-pin to keep wheels or other parts in-place when under stress
page15page163. Connecting the Axles...The new Mechanics system relies on axles to connect the various technical parts together. There are various axle sizes, with each one servicing a specific purpose and engineering application.When making technical models, it is important to transfer motion longer distances. For this purpose, we have developed a range of axle connectors that allow the axles to snap-in. These connectors have various sizes and will join axles linearly, extending them to the length required. There is even a special part to connect an axle vertically on beams!In many cases there is a need to change the direction of motion by an arbitrary angle. Transferring power at an angle is quite challenging, but engineers have actually figured it out by inventing the Universal joint centuries ago. The new Mechanics System includes even the specialized parts to model such a joint!There is a unique design feature in all these axles, and that is the slotted tip. The tip has been designed with that patented shape for two purposes. The obvious one is to snap-fit when an axle is inserted in the receptive holes of beams, gears and wheels. The slot allows deflection of the tips and enable a smooth, repeatable click. Slotted tipfor snap-fitVarious types of hybrid parts to connect Classic to Mechanics!Various types of axle connectorsA universal joint4. Locking the connections…The second purpose of the slotted tip on the axles is what makes it a multi-purpose tool! A “lock-pin” can be inserted inside the slot and once it snaps in place, it can hold one part securely on the other, like a fastener. By attempting to pull the parts apart, the “lock-pin” wings inside the slot, restrict yhe axle's deflection and force the parts to remain connected. But, as easily as this pin is inserted, it is as easily removed! Just pull the pin out first, either by using fingers or with the innovative extraction tool, and parts are unlocked and released.®The ENGINO extraction tool included in most sets5. Powering up the Models…The ability to animate models using motors is the first step before introducing ®robotics. The new ENGINO motors are designed with a snap fit removable axle so that it can be replaced easily when overstressed. The high-performance gearbox inside the casing achieves high torque and powers two outputs as an option, a fast one and a slower one, giving a 2-speed option to the user. There are two versions of the motor, one with built-in battery compartment and one with a robotics cable. Still, living in the new world of renewable energies, we could not have left out the ®possibility to power the motor only with solar energy! The solar panel of ENGINO has a large surface to produce enough voltage when placed in direct sunlight, to power even large models such as the Ferris wheel! 1236. Working with Gears…®The new mechanics system of ENGINO includes a range of high-precession gears that provide a smooth motion and transmit power from a hand-driven crank or the motor to another position, changing speed and torque based on the mechanical advantage of simple machines. There are 3 sizes of spur gears, a modular worm drive that can stack to itself achieving longer worms, a rack gear to convert rotational motion to linear and a set of bevel gears to change the direction of motion by 90 degrees. The central axle hub of the gears connects with a snap-fit with the various shafts of the system and is held secure in place with the use of the patented locking pin, making sure that gears will stay in place even when stressed with higher loads!Spur gearsRack & pinionWorm gear & screwBevel gears1. Connectable shaft on both sides2. High torque gear box3. Slow & high speed options
page15page163. Connecting the Axles...The new Mechanics system relies on axles to connect the various technical parts together. There are various axle sizes, with each one servicing a specific purpose and engineering application.When making technical models, it is important to transfer motion longer distances. For this purpose, we have developed a range of axle connectors that allow the axles to snap-in. These connectors have various sizes and will join axles linearly, extending them to the length required. There is even a special part to connect an axle vertically on beams!In many cases there is a need to change the direction of motion by an arbitrary angle. Transferring power at an angle is quite challenging, but engineers have actually figured it out by inventing the Universal joint centuries ago. The new Mechanics System includes even the specialized parts to model such a joint!There is a unique design feature in all these axles, and that is the slotted tip. The tip has been designed with that patented shape for two purposes. The obvious one is to snap-fit when an axle is inserted in the receptive holes of beams, gears and wheels. The slot allows deflection of the tips and enable a smooth, repeatable click. Slotted tipfor snap-fitVarious types of hybrid parts to connect Classic to Mechanics!Various types of axle connectorsA universal joint4. Locking the connections…The second purpose of the slotted tip on the axles is what makes it a multi-purpose tool! A “lock-pin” can be inserted inside the slot and once it snaps in place, it can hold one part securely on the other, like a fastener. By attempting to pull the parts apart, the “lock-pin” wings inside the slot, restrict yhe axle's deflection and force the parts to remain connected. But, as easily as this pin is inserted, it is as easily removed! Just pull the pin out first, either by using fingers or with the innovative extraction tool, and parts are unlocked and released.®The ENGINO extraction tool included in most sets5. Powering up the Models…The ability to animate models using motors is the first step before introducing ®robotics. The new ENGINO motors are designed with a snap fit removable axle so that it can be replaced easily when overstressed. The high-performance gearbox inside the casing achieves high torque and powers two outputs as an option, a fast one and a slower one, giving a 2-speed option to the user. There are two versions of the motor, one with built-in battery compartment and one with a robotics cable. Still, living in the new world of renewable energies, we could not have left out the ®possibility to power the motor only with solar energy! The solar panel of ENGINO has a large surface to produce enough voltage when placed in direct sunlight, to power even large models such as the Ferris wheel! 1236. Working with Gears…®The new mechanics system of ENGINO includes a range of high-precession gears that provide a smooth motion and transmit power from a hand-driven crank or the motor to another position, changing speed and torque based on the mechanical advantage of simple machines. There are 3 sizes of spur gears, a modular worm drive that can stack to itself achieving longer worms, a rack gear to convert rotational motion to linear and a set of bevel gears to change the direction of motion by 90 degrees. The central axle hub of the gears connects with a snap-fit with the various shafts of the system and is held secure in place with the use of the patented locking pin, making sure that gears will stay in place even when stressed with higher loads!Spur gearsRack & pinionWorm gear & screwBevel gears1. Connectable shaft on both sides2. High torque gear box3. Slow & high speed options
page177. Working with Pulleys…In modern-day machines, gears are more regularly used due to their compact size and efficiency. However, another Simple machine, the pulley, has been in use since ancient times and it still has its applications! Younger students understand mechanical advantage ®easier when using pulleys, and the Mechanics system by ENGINO has 3 sizes of pulleys that can be used interchangeably to perform several experiments and machine configurations. Different sizes of pulleys8. Working with Cams & Cranks…To convert circular motion to reciprocal, such as the car engine, the use of cams is required. Students can learn valuable lessons through the deployment of cams in their models and understand how cams not only change the type of motion but can also act as ®timers. ENGINO has two types of cams for teaching purposes, the traditional egg-shaped cam and the snail cam.9. Working with Levers & Linkages…The new beams of the Mechanics system has half the width of the ®Classic ENGINO rods, making them more sturdy and robust, ideal to create levers and linkages and magnify motion. They can be combined with the simpler classic rods and accommodate variable complexity as per student's capabilities.10. Making shafts…Power transition can be achieved by using single pieces of axles or shafts. But when there is a need to reach longer distances, a single axle is not enough. The system includes axle connectors that can extend an axle to any length needed, simply by joining the axles together with snap-fit secure action. In addition to straight ®connectors, the ENGINO system has Universal joints which are remarkable when attempting to change the angle of power transfer!Snail and egg-shaped camsSeveral beams connected make linkagesMany axles can connect togetherto transfer motion11. Making robots turn easily…When students make robotic models, they are very often asked to program them for very common tasks such as line-following or obstacle avoidance. There are various methods to make a robotic car turn, but one of the most efficient ones which allows rotation on the same spot, is through the use of a central ball caster wheel. The metal sphere is captured in between two support wings and is allowed to rotate freely with minimal friction. Steel ball bearing
page177. Working with Pulleys…In modern-day machines, gears are more regularly used due to their compact size and efficiency. However, another Simple machine, the pulley, has been in use since ancient times and it still has its applications! Younger students understand mechanical advantage ®easier when using pulleys, and the Mechanics system by ENGINO has 3 sizes of pulleys that can be used interchangeably to perform several experiments and machine configurations. Different sizes of pulleys8. Working with Cams & Cranks…To convert circular motion to reciprocal, such as the car engine, the use of cams is required. Students can learn valuable lessons through the deployment of cams in their models and understand how cams not only change the type of motion but can also act as ®timers. ENGINO has two types of cams for teaching purposes, the traditional egg-shaped cam and the snail cam.9. Working with Levers & Linkages…The new beams of the Mechanics system has half the width of the ®Classic ENGINO rods, making them more sturdy and robust, ideal to create levers and linkages and magnify motion. They can be combined with the simpler classic rods and accommodate variable complexity as per student's capabilities.10. Making shafts…Power transition can be achieved by using single pieces of axles or shafts. But when there is a need to reach longer distances, a single axle is not enough. The system includes axle connectors that can extend an axle to any length needed, simply by joining the axles together with snap-fit secure action. In addition to straight ®connectors, the ENGINO system has Universal joints which are remarkable when attempting to change the angle of power transfer!Snail and egg-shaped camsSeveral beams connected make linkagesMany axles can connect togetherto transfer motion11. Making robots turn easily…When students make robotic models, they are very often asked to program them for very common tasks such as line-following or obstacle avoidance. There are various methods to make a robotic car turn, but one of the most efficient ones which allows rotation on the same spot, is through the use of a central ball caster wheel. The metal sphere is captured in between two support wings and is allowed to rotate freely with minimal friction. Steel ball bearing
page19®ENGINO STEM LevelsSTEM SCORECodingMotorsQuiz & ExercisesTheoryBuildingMechanicsLearning Levels:Construction Levels:Experiments Open projectsENGINO has developed a unique bench-marking methodology for categorizing the various sets on a STEM scale, from level 1 (simpler STEM ®features) to level 3 (advanced STEM features). Such scale can help parents select the most appropriate products for their kids based on their ®experience and skills attained so far. All our sets use ENGINO system at its core and therefore empower STEM. So, it is the individual characteristics of each set that contribute towards the final STEM score. For ease we have grouped features in two main categories, the “Construction Levels” and the “Learning Levels”, which are displayed on our website but also can be found at the bottom left corner of the product's package. “Construction Levels” start from building frames and structures and move on to add Mechanics, and then Motors and finally Coding as the more advanced feature. The “Learning Levels” start by presenting the Theory of relevant technologies, move on to engage kids with Quizzes & Exercises, then to perform Experiments and finally develop Open Projects. Each one of these categories has 3 different levels of increasing complexity, thus providing a ®personalized rating that accumulates to establish it’s STEM score within the ENGINO ’s ecosystem.1. Building Score depends on the number of parts and connecting points2. MechanicsScore depends on the number of mechanical parts®The ENGINO building system has a patented design of the parts which allows connectivity of up to 6 sides simultaneously, while the unique extendable components lead to builds that were previously unthinkable, unleashing kids' creativity and imagination. Sets include printed step-by-step instructions for the main models, but also online through our kidCAD™ interactive app. ®ENGINO Mechanics System consistsof around 150+ different components, including new wheels and axles, beams and connectors and some impressive locking technologies, that are all ®compatible with the Classic ENGINO building system parts. With gears and pulleys models can be engineered to become functionable, by changing speed, direction of motion or torque!Real robots need a controller with microprocessor and sensor inputs and ®various outputs. ENGINO 's patenting methodology of teaching coding starts with manual programming, moves on to virtual simulation, then to drag& drop flow diagrams and even to textual programming, powered by our KEIRO™ and ENVIRO™ software. By solving fun exercises and quizzes, which are included in the educational ®booklet of most ENGINO sets, also available online, kids will be able to challenge their newly acquired knowledge and test what they have learnt!Kids are by nature endowed withinexhaustible imagination and creativityand parents are always looking for waysto enhance and cultivate these®remarkable qualities. ENGINO system’sinherent design allows easy modificationand reconfiguration of the models, empowering kids to engage in open-ended play, allowing them to envision and build their own ideas and not only those proposed by our research team!8. Open Projects Score depends on the number and complexity of parts6. Quiz & ExercisesScore depends on number and complexity of exercises4. CodingScore depends on sensors’s type and quantityThe ability to animate technical models using motors is the first step before introducing Robotics. Motorized sets ®can bring your ENGINO inventions to life, offering young learners the ultimate engineering adventure.Even though theory learning is often limited to a sterile, mechanical memorization of textbooks, with ®ENGINO kids are engaged through colorful content enriched with interesting facts about the underlying technology which drives the models of each set. 7. Experiments Score depends on number of experimentsIn order to foster scientific learning in childhood and get kids interested in learning about science, it is crucial to provide them with hands-on activities that they can explore on their own.Many sets incorporate innovative experimental activities that follow inquiry based learning whereby children can discover by themselves the technological or scientific principles relating to the set. 5. Theory Score depends on amount of STEM/STEAM theory3. MotorsScore depends on the number of motorsTMTMpage20
page19®ENGINO STEM LevelsSTEM SCORECodingMotorsQuiz & ExercisesTheoryBuildingMechanicsLearning Levels:Construction Levels:Experiments Open projectsENGINO has developed a unique bench-marking methodology for categorizing the various sets on a STEM scale, from level 1 (simpler STEM ®features) to level 3 (advanced STEM features). Such scale can help parents select the most appropriate products for their kids based on their ®experience and skills attained so far. All our sets use ENGINO system at its core and therefore empower STEM. So, it is the individual characteristics of each set that contribute towards the final STEM score. For ease we have grouped features in two main categories, the “Construction Levels” and the “Learning Levels”, which are displayed on our website but also can be found at the bottom left corner of the product's package. “Construction Levels” start from building frames and structures and move on to add Mechanics, and then Motors and finally Coding as the more advanced feature. The “Learning Levels” start by presenting the Theory of relevant technologies, move on to engage kids with Quizzes & Exercises, then to perform Experiments and finally develop Open Projects. Each one of these categories has 3 different levels of increasing complexity, thus providing a ®personalized rating that accumulates to establish it’s STEM score within the ENGINO ’s ecosystem.1. Building Score depends on the number of parts and connecting points2. MechanicsScore depends on the number of mechanical parts®The ENGINO building system has a patented design of the parts which allows connectivity of up to 6 sides simultaneously, while the unique extendable components lead to builds that were previously unthinkable, unleashing kids' creativity and imagination. Sets include printed step-by-step instructions for the main models, but also online through our kidCAD™ interactive app. ®ENGINO Mechanics System consistsof around 150+ different components, including new wheels and axles, beams and connectors and some impressive locking technologies, that are all ®compatible with the Classic ENGINO building system parts. With gears and pulleys models can be engineered to become functionable, by changing speed, direction of motion or torque!Real robots need a controller with microprocessor and sensor inputs and ®various outputs. ENGINO 's patenting methodology of teaching coding starts with manual programming, moves on to virtual simulation, then to drag& drop flow diagrams and even to textual programming, powered by our KEIRO™ and ENVIRO™ software. By solving fun exercises and quizzes, which are included in the educational ®booklet of most ENGINO sets, also available online, kids will be able to challenge their newly acquired knowledge and test what they have learnt!Kids are by nature endowed withinexhaustible imagination and creativityand parents are always looking for waysto enhance and cultivate these®remarkable qualities. ENGINO system’sinherent design allows easy modificationand reconfiguration of the models, empowering kids to engage in open-ended play, allowing them to envision and build their own ideas and not only those proposed by our research team!8. Open Projects Score depends on the number and complexity of parts6. Quiz & ExercisesScore depends on number and complexity of exercises4. CodingScore depends on sensors’s type and quantityThe ability to animate technical models using motors is the first step before introducing Robotics. Motorized sets ®can bring your ENGINO inventions to life, offering young learners the ultimate engineering adventure.Even though theory learning is often limited to a sterile, mechanical memorization of textbooks, with ®ENGINO kids are engaged through colorful content enriched with interesting facts about the underlying technology which drives the models of each set. 7. Experiments Score depends on number of experimentsIn order to foster scientific learning in childhood and get kids interested in learning about science, it is crucial to provide them with hands-on activities that they can explore on their own.Many sets incorporate innovative experimental activities that follow inquiry based learning whereby children can discover by themselves the technological or scientific principles relating to the set. 5. Theory Score depends on amount of STEM/STEAM theory3. MotorsScore depends on the number of motorsTMTMpage20
page21TM After the huge success of our preschool Qboidz system, we introduce this year the new Baby Qboidz™ for kids 18 months and older! The biggest and chunkier components of the system, which are both safe and easy for younger kids to assemble, go into sturdy plastic tubs that allow reusability and convenient storage. Even with the simpler parts, the Baby Qboidz™ line enables the two critical first levels of building to deploy, the first dimension empowers kids to stack blocks one over the other, as with standard bricks, and the second dimension enables them to connect parts sideways. As they grow older and develop further their dexterity skills and spatial perception, they can combine these parts with the other components from the Qboidz library and acquire higher level skills of the third and forth dimension. Baby Qboidz Small TubBaby Qboidz Medium TubBaby Qboidz Large Tubbabyengineers1.5-3BRAIN-BUILDING SPATIAL SYSTEMth4 Level: Connecting beams to beams for finer-scale spatial coordinationrd3 Level: Connecting beams to blocks to explore 3D spacend2 Level: Connecting blocks sideways,changing building directionst1 Level: Stacking blocks vertically1.5-3 3-6f
page21TM After the huge success of our preschool Qboidz system, we introduce this year the new Baby Qboidz™ for kids 18 months and older! The biggest and chunkier components of the system, which are both safe and easy for younger kids to assemble, go into sturdy plastic tubs that allow reusability and convenient storage. Even with the simpler parts, the Baby Qboidz™ line enables the two critical first levels of building to deploy, the first dimension empowers kids to stack blocks one over the other, as with standard bricks, and the second dimension enables them to connect parts sideways. As they grow older and develop further their dexterity skills and spatial perception, they can combine these parts with the other components from the Qboidz library and acquire higher level skills of the third and forth dimension. Baby Qboidz Small TubBaby Qboidz Medium TubBaby Qboidz Large Tubbabyengineers1.5-3BRAIN-BUILDING SPATIAL SYSTEMth4 Level: Connecting beams to beams for finer-scale spatial coordinationrd3 Level: Connecting beams to blocks to explore 3D spacend2 Level: Connecting blocks sideways,changing building directionst1 Level: Stacking blocks vertically1.5-3 3-6f
Dimensions:13 x 14.5 x 15.5 cmProduct code: QB10page23Baby Qboidz Large TubseceiP AgeetsairporppA1.5+72fDimensions:19 x 14.5 x 15.5 cmProduct code:QB20Dimensions:25.5 x 14.5 x 15.5 cmProduct code: QB30page24Baby Qboidz Small TubseceiP AgeetsairporppA1.5+28Baby Qboidz Medium TubseceiP AgeetsairporppA1.5+44
Dimensions:13 x 14.5 x 15.5 cmProduct code: QB10page23Baby Qboidz Large TubseceiP AgeetsairporppA1.5+72fDimensions:19 x 14.5 x 15.5 cmProduct code:QB20Dimensions:25.5 x 14.5 x 15.5 cmProduct code: QB30page24Baby Qboidz Small TubseceiP AgeetsairporppA1.5+28Baby Qboidz Medium TubseceiP AgeetsairporppA1.5+44
TM The new Qboidz system combines the award-winning snap-fit connectivity of ®Engino system with the effortless building feature of stackable blocks! The system encourages preschool children to develop their cognitive, social and motor skills TM through fun and creative play. The Qboidz development is based on the latest pedagogical principles of STEM (Science, Technology, Engineering and Mathematics), aiming to provide both girls and boys with the necessary experience, skills and knowledge to cope with the technological advancements of the future. The parts are suitable even for 2 year olds but due to the complexity of some models, age 4-7 is recommended.page26page25junior engineers3+Airplane 5 Bonus Models SetRacing Car 10 Bonus Models SetFarm Tractor 10 Bonus Models SetAlligator 5 Bonus Models SetElephant 10 Bonus Models SetWildlife Rescue 5 Bonus Models Set Story BookActivity Book Board Game Puzzles RewardsDimensions:30 x 21.5 x 8 cmProduct code:QB35SPECIALEDITIONWildlife RescueOnline 3D InstructionsPrinted Instructions3+with 5 Bonus Models SetAppropriate Ages
TM The new Qboidz system combines the award-winning snap-fit connectivity of ®Engino system with the effortless building feature of stackable blocks! The system encourages preschool children to develop their cognitive, social and motor skills TM through fun and creative play. The Qboidz development is based on the latest pedagogical principles of STEM (Science, Technology, Engineering and Mathematics), aiming to provide both girls and boys with the necessary experience, skills and knowledge to cope with the technological advancements of the future. The parts are suitable even for 2 year olds but due to the complexity of some models, age 4-7 is recommended.page26page25junior engineers3+Airplane 5 Bonus Models SetRacing Car 10 Bonus Models SetFarm Tractor 10 Bonus Models SetAlligator 5 Bonus Models SetElephant 10 Bonus Models SetWildlife Rescue 5 Bonus Models Set Story BookActivity Book Board Game Puzzles RewardsDimensions:30 x 21.5 x 8 cmProduct code:QB35SPECIALEDITIONWildlife RescueOnline 3D InstructionsPrinted Instructions3+with 5 Bonus Models SetAppropriate Ages
Dimensions:37 x 27 x 5.5 cmProduct code: QB40Alligator Online 3D InstructionsPrinted Instructions3+page27Dimensions:41 x 28 x 5.9 cmProduct code:QB50with 5 Bonus Models SetAppropriate AgesAirplane Online 3D InstructionsPrinted Instructions3+with 5 Bonus Models SetAppropriate AgesFarm Tractor4+with 10 Bonus Models Setpage28Racing Car Online 3D InstructionsPrinted Instructions4+with 10 Bonus Models SetAppropriate AgesDimensions:37 x 27 x 5.5 cmProduct code:QB41Online 3D InstructionsPrinted InstructionsAppropriate AgesDimensions:46 x 29 x 5.9 cmProduct code: QB60
Dimensions:37 x 27 x 5.5 cmProduct code: QB40Alligator Online 3D InstructionsPrinted Instructions3+page27Dimensions:41 x 28 x 5.9 cmProduct code:QB50with 5 Bonus Models SetAppropriate AgesAirplane Online 3D InstructionsPrinted Instructions3+with 5 Bonus Models SetAppropriate AgesFarm Tractor4+with 10 Bonus Models Setpage28Racing Car Online 3D InstructionsPrinted Instructions4+with 10 Bonus Models SetAppropriate AgesDimensions:37 x 27 x 5.5 cmProduct code:QB41Online 3D InstructionsPrinted InstructionsAppropriate AgesDimensions:46 x 29 x 5.9 cmProduct code: QB60
This new range titled STEAM LABS JUNIOR™ has been developed for preschool children, both boys and girls. The aim is to teach children about core subject knowledge, while also developing 21st century STEAM skills. The series covers 4 different topics that resonate with children of this age. The products are positioned as toy-books by bundling the box with the book and shrink-wrapping together. With the help of an adult, preschool children can learn interesting facts about each theme, while also building their model following the step-by-step instructions. More activities come next, such as coloring pictures, connecting dots, and tracing numbers or letters of the alphabet. Additional activities are included that help kids learn about shapes, colors and maths! These books come with our free Augmented Reality app (AR) that makes content much more engaging and entertaining! Learning About Wild Animals...Learning About Aircrafts...Learning About Vehicles...Learning About Sea Adventures...StoryBuilding and learning of modelColoringactivitiesLearning the numbersBook with theory, STEAM activitiesand building instructionsjunior engineers3+Free appto view 3D modelsElephantOnline 3D InstructionsPrinted Instructions4+with 10 Bonus Models SetAppropriate AgesDimensions:47 x 31 x 6.9 cmProduct code: QB70page29
This new range titled STEAM LABS JUNIOR™ has been developed for preschool children, both boys and girls. The aim is to teach children about core subject knowledge, while also developing 21st century STEAM skills. The series covers 4 different topics that resonate with children of this age. The products are positioned as toy-books by bundling the box with the book and shrink-wrapping together. With the help of an adult, preschool children can learn interesting facts about each theme, while also building their model following the step-by-step instructions. More activities come next, such as coloring pictures, connecting dots, and tracing numbers or letters of the alphabet. Additional activities are included that help kids learn about shapes, colors and maths! These books come with our free Augmented Reality app (AR) that makes content much more engaging and entertaining! Learning About Wild Animals...Learning About Aircrafts...Learning About Vehicles...Learning About Sea Adventures...StoryBuilding and learning of modelColoringactivitiesLearning the numbersBook with theory, STEAM activitiesand building instructionsjunior engineers3+Free appto view 3D modelsElephantOnline 3D InstructionsPrinted Instructions4+with 10 Bonus Models SetAppropriate AgesDimensions:47 x 31 x 6.9 cmProduct code: QB70page29
Dimensions:20.5 x 29 x 5.8 cmProduct code:STL11warranty years3appropriatefor buildingmodels to build5warranty years3appropriatefor buildingmodels to build53+3+Dimensions:20.5 x 29 x 5.8 cmProduct code:STL13warranty years3appropriatefor buildingmodels to build5years3appropriatefor buildingmodels to build53+3+warranty Learning About Wild Animals Learning About Sea AdventuresLearning About VehiclesLearning About Aircraftspage32page31Dimensions:20.5 x 29 x 5.8 cmProduct code:STL12Dimensions:20.5 x 29 x 5.8 cmProduct code:STL14
Dimensions:20.5 x 29 x 5.8 cmProduct code:STL11warranty years3appropriatefor buildingmodels to build5warranty years3appropriatefor buildingmodels to build53+3+Dimensions:20.5 x 29 x 5.8 cmProduct code:STL13warranty years3appropriatefor buildingmodels to build5years3appropriatefor buildingmodels to build53+3+warranty Learning About Wild Animals Learning About Sea AdventuresLearning About VehiclesLearning About Aircraftspage32page31Dimensions:20.5 x 29 x 5.8 cmProduct code:STL12Dimensions:20.5 x 29 x 5.8 cmProduct code:STL14
®Spinners have always been a favorite toy of children. ENGINO has developed this new series of colorful STEM Spinners, where creativity meets fun! Each of the 4 sets of the STEM Spinners contain a special spinner support component, a printed color ®disk and a library of standard ENGINO parts. One model can be created from each set and when all sets are combined 3 models of planes and helicopters can be ®assembled! Instructions for the combination models can be found on ENGINO ’s website. Building instructionsInstructions de montageBauanleitungManuale d’istruzioniInstrucciones de montajeЙнструкция по сборкеwww.engino.com/spinnersSP02SP01SP04SP03Combine all 4sets to create3 large modelsSTEM Spinner - GreenTMPrinted blade disk included.STEM Spinner - YellowSTEM Spinner - BlueSTEM Spinner - Orangeyoung 6+engineers
®Spinners have always been a favorite toy of children. ENGINO has developed this new series of colorful STEM Spinners, where creativity meets fun! Each of the 4 sets of the STEM Spinners contain a special spinner support component, a printed color ®disk and a library of standard ENGINO parts. One model can be created from each set and when all sets are combined 3 models of planes and helicopters can be ®assembled! Instructions for the combination models can be found on ENGINO ’s website. Building instructionsInstructions de montageBauanleitungManuale d’istruzioniInstrucciones de montajeЙнструкция по сборкеwww.engino.com/spinnersSP02SP01SP04SP03Combine all 4sets to create3 large modelsSTEM Spinner - GreenTMPrinted blade disk included.STEM Spinner - YellowSTEM Spinner - BlueSTEM Spinner - Orangeyoung 6+engineers
Spinner GreenPrinted bladedisk included 6+AppropriateagesSTEM Spinner YellowSTEM Spinner BlueSTEM Spinner OrangeSTEMpage35page36Dimensions:6 x 6 x 6 cmProduct code: SP02Dimensions:6 x 6 x 6 cmProduct code: SP01Dimensions:6 x 6 x 6 cmProduct code: SP04Dimensions:6 x 6 x 6 cmProduct code: SP03Online 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions
Spinner GreenPrinted bladedisk included 6+AppropriateagesSTEM Spinner YellowSTEM Spinner BlueSTEM Spinner OrangeSTEMpage35page36Dimensions:6 x 6 x 6 cmProduct code: SP02Dimensions:6 x 6 x 6 cmProduct code: SP01Dimensions:6 x 6 x 6 cmProduct code: SP04Dimensions:6 x 6 x 6 cmProduct code: SP03Online 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions Printed bladedisk included 6+AppropriateagesOnline 3D instructions
The revamped CREATIVE BUILDER - Multimodel series, is the latest upgrade of the ® very successful 2017 INVENTOR line, which brings out the best of ENGINO : the ability to build fast and easy as many models as possible! The classic building system is deployed, which makes the sets suitable for 6 year olds, providing a stepping stone between the Qboidz and the Mechanics lines. Creativity development is the main focus of this series, starting from a 10 models set all the ® way to 120 models! All our sets from 30 models and above include the ENGINO new 2-speed motor for animated builds, from cars to cranes to dinosaurs and helicopters. The only limit is the imagination of the child!10 Models Multimodel SetDimensions:22 x 16 x 5.5 cmProduct code:1031years3warranty 6+Appropriateagesyears3warranty Printed Instructions 6+AppropriateagesMultimodel seriespage38Printed Instructions MOTOR POWER15 Models Multimodel Set20 Models Multimodel Set25 Models Multimodel Set30 Models Motorized Set - Multimodel Set50 Models Motorized Set - Multimodel Set90 Models Motorized Set - Multimodel Set120 Models Motorized Set - Multimodel SetMultimodel Set15 ModelsMultimodel Set10 Modelsyoung 6+engineersDimensions:26 x 19 x 5.5 cmProduct code:1531page37
The revamped CREATIVE BUILDER - Multimodel series, is the latest upgrade of the ® very successful 2017 INVENTOR line, which brings out the best of ENGINO : the ability to build fast and easy as many models as possible! The classic building system is deployed, which makes the sets suitable for 6 year olds, providing a stepping stone between the Qboidz and the Mechanics lines. Creativity development is the main focus of this series, starting from a 10 models set all the ® way to 120 models! All our sets from 30 models and above include the ENGINO new 2-speed motor for animated builds, from cars to cranes to dinosaurs and helicopters. The only limit is the imagination of the child!10 Models Multimodel SetDimensions:22 x 16 x 5.5 cmProduct code:1031years3warranty 6+Appropriateagesyears3warranty Printed Instructions 6+AppropriateagesMultimodel seriespage38Printed Instructions MOTOR POWER15 Models Multimodel Set20 Models Multimodel Set25 Models Multimodel Set30 Models Motorized Set - Multimodel Set50 Models Motorized Set - Multimodel Set90 Models Motorized Set - Multimodel Set120 Models Motorized Set - Multimodel SetMultimodel Set15 ModelsMultimodel Set10 Modelsyoung 6+engineersDimensions:26 x 19 x 5.5 cmProduct code:1531page37
Dimensions:43 x 28 x 5.9 cmProduct code:3030Dimensions:31 x 23 x 5.5 cmProduct code:2031years3warranty Printed Instructions 6+Appropriateagespage39Multimodel Set20 Modelsyears3warranty 7+Appropriateagesyears3warranty Printed Instructions 7+Appropriateagespage40Printed Instructions Motorized Set - Multimodel Set30 ModelsMotorized Set - Multimodel Set50 ModelsMOTORPOWERyears3warranty Printed Instructions 6+AppropriateagesDimensions:46 x 29 x 5.9 cmProduct code:5030MOTORPOWERDimensions:37 x 27 x 5.5 cmProduct code:253125 ModelsMultimodel Set
Dimensions:43 x 28 x 5.9 cmProduct code:3030Dimensions:31 x 23 x 5.5 cmProduct code:2031years3warranty Printed Instructions 6+Appropriateagespage39Multimodel Set20 Modelsyears3warranty 7+Appropriateagesyears3warranty Printed Instructions 7+Appropriateagespage40Printed Instructions Motorized Set - Multimodel Set30 ModelsMotorized Set - Multimodel Set50 ModelsMOTORPOWERyears3warranty Printed Instructions 6+AppropriateagesDimensions:46 x 29 x 5.9 cmProduct code:5030MOTORPOWERDimensions:37 x 27 x 5.5 cmProduct code:253125 ModelsMultimodel Set
years3warranty Printed Instructions 7+Appropriateagesyears3warranty Printed Instructions 7+Appropriateagespage41page42Motorized Set - Multimodel Set90 ModelsMotorized Set - Multimodel Set120 ModelsDimensions:49 x 33 x 6.9 cmProduct code:9030MOTORPOWERDimensions:49 x 37 x 6.9 cmProduct code:12030MOTORPOWER
years3warranty Printed Instructions 7+Appropriateagesyears3warranty Printed Instructions 7+Appropriateagespage41page42Motorized Set - Multimodel Set90 ModelsMotorized Set - Multimodel Set120 ModelsDimensions:49 x 33 x 6.9 cmProduct code:9030MOTORPOWERDimensions:49 x 37 x 6.9 cmProduct code:12030MOTORPOWER
Getting children, especially girls, interested in construction building and engineering can be quite a difficult task. The brand new CREATIVE BUILDER - Designer Series, tackles this problem by linking imaginative play with 3D model creation. The vivid colours of lilac, fuchsia, light green and sky blue will surely intrigue our little friends and urge them to explore their creative side. The series ranges from 15 models set to 30 models with a motor. The line is also suitable for boys who like the design style of the series.15 Models Designer SetDimensions:26 x 19.5 x 5.5 cmProduct code:CB-D15years3warranty 6+Appropriateagesyears3warranty Printed Instructions 6+AppropriateagesDesigner seriespage44Printed Instructions 20 Models Designer Set25 Models Designer Set30 Models Designer Motorized Set15 Modelspage43Designer Set20 ModelsDesigner SetDimensions:31 x 23 x 5.5 cmProduct code:CB-D20young 6+engineers
Getting children, especially girls, interested in construction building and engineering can be quite a difficult task. The brand new CREATIVE BUILDER - Designer Series, tackles this problem by linking imaginative play with 3D model creation. The vivid colours of lilac, fuchsia, light green and sky blue will surely intrigue our little friends and urge them to explore their creative side. The series ranges from 15 models set to 30 models with a motor. The line is also suitable for boys who like the design style of the series.15 Models Designer SetDimensions:26 x 19.5 x 5.5 cmProduct code:CB-D15years3warranty 6+Appropriateagesyears3warranty Printed Instructions 6+AppropriateagesDesigner seriespage44Printed Instructions 20 Models Designer Set25 Models Designer Set30 Models Designer Motorized Set15 Modelspage43Designer Set20 ModelsDesigner SetDimensions:31 x 23 x 5.5 cmProduct code:CB-D20young 6+engineers
Dimensions:37 x 27 x 5.5 cmProduct code:CB-D25years3warranty Printed Instructions 6+Appropriateagespage45years3warranty Printed Instructions 7+AppropriateagesDesigner Set30 Models25 ModelsDesigner Motorized SetThe Machinery Series is another nice extension to the CREATIVE BUILDER line, which places emphasis on the construction of diggers, cranes and trucks, some of the most favorite play themes of 6 to 9 year old youngsters! The line consists of four different pack options, each one containing instructions for three different models. Children can build iconic machines such as a Backhoe Loader, a Telescopic Handler and a Skid Steer Loader. The larger set also includes a motor which brings the Machinery models to life.Tipper Truck Machinery SetMachinery seriesWheeled Loader Machinery SetBackhoe Loader Machinery SetTall Crane Machinery Motorized Set13MODELSDimensions:43 x 28 x 5.9 cmProduct code:CB-D30MOTORPOWERyoung 6+engineers
Dimensions:37 x 27 x 5.5 cmProduct code:CB-D25years3warranty Printed Instructions 6+Appropriateagespage45years3warranty Printed Instructions 7+AppropriateagesDesigner Set30 Models25 ModelsDesigner Motorized SetThe Machinery Series is another nice extension to the CREATIVE BUILDER line, which places emphasis on the construction of diggers, cranes and trucks, some of the most favorite play themes of 6 to 9 year old youngsters! The line consists of four different pack options, each one containing instructions for three different models. Children can build iconic machines such as a Backhoe Loader, a Telescopic Handler and a Skid Steer Loader. The larger set also includes a motor which brings the Machinery models to life.Tipper Truck Machinery SetMachinery seriesWheeled Loader Machinery SetBackhoe Loader Machinery SetTall Crane Machinery Motorized Set13MODELSDimensions:43 x 28 x 5.9 cmProduct code:CB-D30MOTORPOWERyoung 6+engineers
Dimensions:41 x 28 x 5.9 cmProduct code:CB-M30Dimensions:31 x 23 x 5.5 cmProduct code:CB-M10years3warranty Printed Instructions 6+Appropriateagespage47years3warranty Printed Instructions 6+AppropriateagesMachinery SetTipper Truckpage48Machinery SetWheeled LoaderMachinery SetBackhoe Loaderyears3warranty Printed Instructions 6+Appropriateagesyears3warranty Printed Instructions 7+AppropriateagesMachinery Motorized SetTall CraneDimensions:37 x 27 x 5.5 cmProduct code:CB-M20Dimensions:49 x 33 x 6.9 cmProduct code:CB-M40MOTORPOWER
Dimensions:41 x 28 x 5.9 cmProduct code:CB-M30Dimensions:31 x 23 x 5.5 cmProduct code:CB-M10years3warranty Printed Instructions 6+Appropriateagespage47years3warranty Printed Instructions 6+AppropriateagesMachinery SetTipper Truckpage48Machinery SetWheeled LoaderMachinery SetBackhoe Loaderyears3warranty Printed Instructions 6+Appropriateagesyears3warranty Printed Instructions 7+AppropriateagesMachinery Motorized SetTall CraneDimensions:37 x 27 x 5.5 cmProduct code:CB-M20Dimensions:49 x 33 x 6.9 cmProduct code:CB-M40MOTORPOWER
3D PrintingLaser CuttingWood WorkDIY Electronics“STEM” stands for Science, Technology, Engineering and Mathematics, and while the trend in STEM has become huge over the last few years, there is still a debate on what really STEM is and whether “Arts” are to be included in the acronym of “STEAM”. At ®ENGINO , we believe learning is an interdisciplinary process where subjects intertwine, becoming “means to an end”, that is to solve a real-life problem. For us, “STEM” is more of a methodology rather that a subject, and aims to inspire kids to become future engineers and innovators. As parents and teachers become increasingly aware of the value of STEM, our team has ®researched into developing the future of STEM, introducing the ultimate solution for MAKERSPACES! This new series by ENGINO with enhanced mechanical design, combine perfectly the process of crafting with modern equipment such as laser cutters and 3D printers, while adding key artistic elements that infuse the skills of engineering design and creativity to kids and adults alike!page50Channels transfer hydraulic force from the base to each moving part.Hybrid construction using ®the award-winning ENGINO plastic parts and laser-cut wooden surfaces.Hydraulic pistons to operate the grabber.Special connecting pins for easy wood assembly.Elaborate gearing system to rotate the arm. page49MECHANICAL GLOBEEXPLORATION SHIPPULL-BACK RACE CARHYDRAULIC ROBOTIC ARMmaster9+engineers
3D PrintingLaser CuttingWood WorkDIY Electronics“STEM” stands for Science, Technology, Engineering and Mathematics, and while the trend in STEM has become huge over the last few years, there is still a debate on what really STEM is and whether “Arts” are to be included in the acronym of “STEAM”. At ®ENGINO , we believe learning is an interdisciplinary process where subjects intertwine, becoming “means to an end”, that is to solve a real-life problem. For us, “STEM” is more of a methodology rather that a subject, and aims to inspire kids to become future engineers and innovators. As parents and teachers become increasingly aware of the value of STEM, our team has ®researched into developing the future of STEM, introducing the ultimate solution for MAKERSPACES! This new series by ENGINO with enhanced mechanical design, combine perfectly the process of crafting with modern equipment such as laser cutters and 3D printers, while adding key artistic elements that infuse the skills of engineering design and creativity to kids and adults alike!page50Channels transfer hydraulic force from the base to each moving part.Hybrid construction using ®the award-winning ENGINO plastic parts and laser-cut wooden surfaces.Hydraulic pistons to operate the grabber.Special connecting pins for easy wood assembly.Elaborate gearing system to rotate the arm. page49MECHANICAL GLOBEEXPLORATION SHIPPULL-BACK RACE CARHYDRAULIC ROBOTIC ARMmaster9+engineers
EXPLORATIONSHIPDimensions:30 x 21.5 x 8 cmProduct code:MS02years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedMECHANICALGLOBEDimensions:30 x 21.5 x 8 cmProduct code:MS01years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedHYDRAULICROBOTIC ARMDimensions:30 x 21.5 x 8 cmProduct code:MS04years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedPULL-BACKRACE CARDimensions:30 x 21.5 x 8 cmProduct code:MS03years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedpage51page52
EXPLORATIONSHIPDimensions:30 x 21.5 x 8 cmProduct code:MS02years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedMECHANICALGLOBEDimensions:30 x 21.5 x 8 cmProduct code:MS01years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedHYDRAULICROBOTIC ARMDimensions:30 x 21.5 x 8 cmProduct code:MS04years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedPULL-BACKRACE CARDimensions:30 x 21.5 x 8 cmProduct code:MS03years3warranty Printed Instructions 9+AppropriateagesOnline 3D Instructions Paint Set includedpage51page52
The new INVENTOR MECHANICS series has a thematic approach with multi model capabilities, featuring an impressive main model. A new library of patent-pending ®components has been added to the ENGINO system which enhances both aesthetics and technical features. These parts include high-precession wheels, mechanisms and snap-fit curved surfaces. Every set in the series is appropriate for kids 9 and up. Smaller sets introduce children to fundamentals, while advanced sets with geared motors challenge older kids. The most advanced and bigger sets feature robotics, Bluetooth, and software control, offering a robust and captivating experience!Race car with 10 bonus models Motorized Set4-wheeled extreme bikewith 10 bonus models Motorized SetSpace shuttlewith 5 bonus models Mechanics SetExcavator with 5 bonus models Mechanics SetCustom bikewith 5 bonus models Mechanics SetBeach buggywith 5 bonus models Mechanics SetTipper truckwith 5 bonus models Mechanics SetQuad bikewith 5 bonus models Mechanics SetAcrobatic plane with 5 bonus models Mechanics SetSpeed racer with 5 bonus models Mechanics SetOffroaderwith 10 bonus models Motorized SetDouble-blade helicopterwith 10 bonus models Motorized SetGinoBotwith 10 bonus models Robotized Setyears3warranty Printed Instructions 9+AppropriateagesAcrobatic PlaneSpeed Racerpage54master9+engineerspage53Dimensions:22 x 16 x 5.5 cmProduct code:IN10years3warranty Printed Instructions 9+Appropriateageswith 5 Bonus Models Mechanics Setwith 5 Bonus Models Mechanics SetDimensions:22 x 16 x 5.5 cmProduct code:IN11
The new INVENTOR MECHANICS series has a thematic approach with multi model capabilities, featuring an impressive main model. A new library of patent-pending ®components has been added to the ENGINO system which enhances both aesthetics and technical features. These parts include high-precession wheels, mechanisms and snap-fit curved surfaces. Every set in the series is appropriate for kids 9 and up. Smaller sets introduce children to fundamentals, while advanced sets with geared motors challenge older kids. The most advanced and bigger sets feature robotics, Bluetooth, and software control, offering a robust and captivating experience!Race car with 10 bonus models Motorized Set4-wheeled extreme bikewith 10 bonus models Motorized SetSpace shuttlewith 5 bonus models Mechanics SetExcavator with 5 bonus models Mechanics SetCustom bikewith 5 bonus models Mechanics SetBeach buggywith 5 bonus models Mechanics SetTipper truckwith 5 bonus models Mechanics SetQuad bikewith 5 bonus models Mechanics SetAcrobatic plane with 5 bonus models Mechanics SetSpeed racer with 5 bonus models Mechanics SetOffroaderwith 10 bonus models Motorized SetDouble-blade helicopterwith 10 bonus models Motorized SetGinoBotwith 10 bonus models Robotized Setyears3warranty Printed Instructions 9+AppropriateagesAcrobatic PlaneSpeed Racerpage54master9+engineerspage53Dimensions:22 x 16 x 5.5 cmProduct code:IN10years3warranty Printed Instructions 9+Appropriateageswith 5 Bonus Models Mechanics Setwith 5 Bonus Models Mechanics SetDimensions:22 x 16 x 5.5 cmProduct code:IN11
Dimensions:31 x 23 x 5.5 cmProduct code:IN30years3warranty Printed Instructions 9+Appropriateagespage55Dimensions:26 x 19.5 x 5.5 cmProduct code:IN20Dimensions:26 x 19.5 x 5.5 cmProduct code:IN21Dimensions:31 x 23 x 5.5 cmProduct code:IN31Custom Bikewith 5 Bonus Models Mechanics SetBeach Buggy with 5 Bonus Models Mechanics Setyears3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+Appropriateagespage56with 5 Bonus Models Mechanics SetTipper Truck with 5 Bonus Models Mechanics Setyears3warranty Printed Instructions 9+AppropriateagesQuad Bike
Dimensions:31 x 23 x 5.5 cmProduct code:IN30years3warranty Printed Instructions 9+Appropriateagespage55Dimensions:26 x 19.5 x 5.5 cmProduct code:IN20Dimensions:26 x 19.5 x 5.5 cmProduct code:IN21Dimensions:31 x 23 x 5.5 cmProduct code:IN31Custom Bikewith 5 Bonus Models Mechanics SetBeach Buggy with 5 Bonus Models Mechanics Setyears3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+Appropriateagespage56with 5 Bonus Models Mechanics SetTipper Truck with 5 Bonus Models Mechanics Setyears3warranty Printed Instructions 9+AppropriateagesQuad Bike
years3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+AppropriateagesExcavator Race Car 4-Wheeled Extreme Bikepage58Dimensions:37 x 27 x 5.5 cmProduct code:IN40Dimensions:41 x 28 x 5.9 cmProduct code:IN50Dimensions:43 x 28 x 5.9 cmProduct code:IN51MOTORPOWERMOTORPOWERwith 5 Bonus Models Mechanics Setwith 10 Bonus Models Motorized Setwith 10 Bonus Models Motorized SetDimensions:37 x 27 x 5.5 cmProduct code:IN41years3warranty Printed Instructions 9+Appropriateagespage57Space Shuttlewith 5 Bonus Models Mechanics Set
years3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+AppropriateagesExcavator Race Car 4-Wheeled Extreme Bikepage58Dimensions:37 x 27 x 5.5 cmProduct code:IN40Dimensions:41 x 28 x 5.9 cmProduct code:IN50Dimensions:43 x 28 x 5.9 cmProduct code:IN51MOTORPOWERMOTORPOWERwith 5 Bonus Models Mechanics Setwith 10 Bonus Models Motorized Setwith 10 Bonus Models Motorized SetDimensions:37 x 27 x 5.5 cmProduct code:IN41years3warranty Printed Instructions 9+Appropriateagespage57Space Shuttlewith 5 Bonus Models Mechanics Set
years3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+AppropriateagesOffroader Double-Blade Helicopter page60page59with 10 Bonus Models Motorized Setwith 10 Bonus Models Motorized SetDimensions:46 x 29 x 5.9 cmProduct code:IN60MOTORPOWERDimensions:47 x 31 x 6.9 cmProduct code:IN70MOTORPOWER
years3warranty Printed Instructions 9+Appropriateagesyears3warranty Printed Instructions 9+AppropriateagesOffroader Double-Blade Helicopter page60page59with 10 Bonus Models Motorized Setwith 10 Bonus Models Motorized SetDimensions:46 x 29 x 5.9 cmProduct code:IN60MOTORPOWERDimensions:47 x 31 x 6.9 cmProduct code:IN70MOTORPOWER
The new STEAM LABS™ toybook series has been developed based on the latest pedagogical trend that incorporates “Arts” within the STEM wording. Even though art is an inherent part of the engineering design process, “A” puts emphasis on one of the highest brain functions of human beings, that of inspirational creativity. “Inspiration” has been the driving force behind all humanity’s masterworks, either inventions, architecture, music, painting or literature. STEAM LABS™ toybook series innovate further by bundling the toy with the Theory & Activity book on the outside of the box, shrink-wrapped together. Each set includes sheets of paper with pre-defined sketches which kids can paint, cut and attach on their models. The books explain the theory about the subject and include smart experimental activities that relate to each theme. These books come with our free Augmented Reality app (AR) that makes content much more engaging and entertaining! There is an option to get the products of this series as “books”, with the booklet placed and shrink-wrapped outside a brown carton box, or as a normal toy box, printed in full colour with the same STEAM book inside.How Solar Energy Works ?How Viruses Work ?How Hydraulics Work ?How Greenhouses Work ?How Buoyancy Works ?How Inertia Works ?Level1Level2Level3Level4BuildingDrawingExperimentingLearningMulti-level Learning System™ years3warranty Printed Instructions 9+AppropriateagesGinobotFREE app to view 3D modelspage61Dimensions:49 x 33 x 7.9 cmProduct code:IN90MOTORPOWERwith 10 Bonus Models Robotized SetElaborate theory & experiment’s bookyoung 6+engineers
The new STEAM LABS™ toybook series has been developed based on the latest pedagogical trend that incorporates “Arts” within the STEM wording. Even though art is an inherent part of the engineering design process, “A” puts emphasis on one of the highest brain functions of human beings, that of inspirational creativity. “Inspiration” has been the driving force behind all humanity’s masterworks, either inventions, architecture, music, painting or literature. STEAM LABS™ toybook series innovate further by bundling the toy with the Theory & Activity book on the outside of the box, shrink-wrapped together. Each set includes sheets of paper with pre-defined sketches which kids can paint, cut and attach on their models. The books explain the theory about the subject and include smart experimental activities that relate to each theme. These books come with our free Augmented Reality app (AR) that makes content much more engaging and entertaining! There is an option to get the products of this series as “books”, with the booklet placed and shrink-wrapped outside a brown carton box, or as a normal toy box, printed in full colour with the same STEAM book inside.How Solar Energy Works ?How Viruses Work ?How Hydraulics Work ?How Greenhouses Work ?How Buoyancy Works ?How Inertia Works ?Level1Level2Level3Level4BuildingDrawingExperimentingLearningMulti-level Learning System™ years3warranty Printed Instructions 9+AppropriateagesGinobotFREE app to view 3D modelspage61Dimensions:49 x 33 x 7.9 cmProduct code:IN90MOTORPOWERwith 10 Bonus Models Robotized SetElaborate theory & experiment’s bookyoung 6+engineers
The sets of this series are based on the ®ENGINO ’s Multi-level Learning System™. Each level corresponds to different skills that can be acquired through encompassing STEAM activities, starting from the practical (model building) going all the way to the abstract (learning through experiments). Level 1 - Building: Use the included plastic parts and follow the building instructions to construct your model. Add skin surfaces to create a more complicated construction and make your model look more realistic!Level 2 - Drawing: Give your model a more personal style by colouring the included surfaces, or step-up and be more creative by designing and painting your own theme from scratch. Level 3 - Experimenting: Use the model you have built to carry out the suggested experiment and discover key scientific principles about the subject by yourself. Level 4 - Learning: Read the theoretical section to enhance your knowledge with further information and amazing facts, becoming an expert in the field! Take the included quiz to test what you have learnt.2LEVEL1LEVELMulti-level Learning System™ BuildingDrawingLearning4LEVELCarry out the experiment and write down your observations!Draw your own conclusions and learn first hand about solar energy!Read the background theory and learn about some amazing facts relating to solar energy!Take the quiz to test what you have learnt about the subject!Flip the paper skins and create your own design from scratch!Use the instructions to build your model! Add plastic surfaces and make it appear as in real life!Experimenting3LEVELReplace the plastic skin and colour your own! Create your own skins and share with follow inventors!1A Free Skins available online! Download and print various skins to change the look of your models! SHARE skins online:www.engino.com/stl/212B 2A 2C1B 3A 3B 4B 4A An example from the Solar Plane set8+model to build1years3warranty 8+models to build4years3warranty How Solar Energy Works ? How Greenhouses Work ?page63page64Dimensions:20.5 x 29 x 5.8 cmProduct code:STL20Dimensions:20.5 x 29 x 5.8 cmProduct code:STL23
The sets of this series are based on the ®ENGINO ’s Multi-level Learning System™. Each level corresponds to different skills that can be acquired through encompassing STEAM activities, starting from the practical (model building) going all the way to the abstract (learning through experiments). Level 1 - Building: Use the included plastic parts and follow the building instructions to construct your model. Add skin surfaces to create a more complicated construction and make your model look more realistic!Level 2 - Drawing: Give your model a more personal style by colouring the included surfaces, or step-up and be more creative by designing and painting your own theme from scratch. Level 3 - Experimenting: Use the model you have built to carry out the suggested experiment and discover key scientific principles about the subject by yourself. Level 4 - Learning: Read the theoretical section to enhance your knowledge with further information and amazing facts, becoming an expert in the field! Take the included quiz to test what you have learnt.2LEVEL1LEVELMulti-level Learning System™ BuildingDrawingLearning4LEVELCarry out the experiment and write down your observations!Draw your own conclusions and learn first hand about solar energy!Read the background theory and learn about some amazing facts relating to solar energy!Take the quiz to test what you have learnt about the subject!Flip the paper skins and create your own design from scratch!Use the instructions to build your model! Add plastic surfaces and make it appear as in real life!Experimenting3LEVELReplace the plastic skin and colour your own! Create your own skins and share with follow inventors!1A Free Skins available online! Download and print various skins to change the look of your models! SHARE skins online:www.engino.com/stl/212B 2A 2C1B 3A 3B 4B 4A An example from the Solar Plane set8+model to build1years3warranty 8+models to build4years3warranty How Solar Energy Works ? How Greenhouses Work ?page63page64Dimensions:20.5 x 29 x 5.8 cmProduct code:STL20Dimensions:20.5 x 29 x 5.8 cmProduct code:STL23
Dimensions:20.5 x 29 x 5.8 cmProduct code:STL26Dimensions:20.5 x 29 x 5.8 cmProduct code:STL248+years3warranty 8+models to build2years3warranty 8+years3warranty How Hydraulics Work ?How Buoyancy Works ?How Inertia Works ?How Viruses Work ?models to build4models to build2Dimensions:20.5 x 29 x 5.8 cmProduct code:STL25page66Dimensions:20.5 x 29 x 5.8 cmProduct code:STL278+models to build4years3warranty page65
Dimensions:20.5 x 29 x 5.8 cmProduct code:STL26Dimensions:20.5 x 29 x 5.8 cmProduct code:STL248+years3warranty 8+models to build2years3warranty 8+years3warranty How Hydraulics Work ?How Buoyancy Works ?How Inertia Works ?How Viruses Work ?models to build4models to build2Dimensions:20.5 x 29 x 5.8 cmProduct code:STL25page66Dimensions:20.5 x 29 x 5.8 cmProduct code:STL278+models to build4years3warranty page65
The new robotic line called CODING LAB has been specially developed for robotic enthusiasts, who look for smart programmable gadgets of expandable and reconfigurable capabilities. The line is spearheaded by GinoBot™, the latest innovative robotics vehicle, with wi-fi and BT connectivity, ideal for Primary and Secondary school students but also hobbyist engineers. The ERP MINI™ takes this expertise to a higher level having independent sensors and controller, while ERP PRO™ is the top of the range with 3 motors, IR sensors and advanced mechanical elements. The CODING LAB line, through hands-on activities and real-life problem-solving challenges, can really help our next generation of inventors develop STEM expertise and acquire the so much needed 21st century skills.GINOBOT™ Expandable Robot ERP PRO™ Expandable Robot ERP MINI™ Expandable Robot page67master9+engineerswith flow icons & text programmingpage68®CODING GINOBOT™ is the new expandable robot by ENGINO ! LAB®GINOBOT™ has built-in connectors of ENGINO , enabling structural and mechanical expansion. Expandability extends also to open ® ®electronics as GINOBOT™ is connectable to Raspberry Pi , Micro:bit ® ®and Arduino as well to ENGINO ERP sensor modules (not included). This 4-wheel drive version of GINOBOT™ comes with wifi and bluetooth, and has 2 colour sensors built-in at the bottom to follow coloured lines, an ultrasound sensor at the front, 3 Infrared distance sensors and 4 programmable RGB lights!E X PA N D A B L E R O B OTModels to build9+Dimensions:30 x 30 x 8.2 cmProduct code:ROB10
The new robotic line called CODING LAB has been specially developed for robotic enthusiasts, who look for smart programmable gadgets of expandable and reconfigurable capabilities. The line is spearheaded by GinoBot™, the latest innovative robotics vehicle, with wi-fi and BT connectivity, ideal for Primary and Secondary school students but also hobbyist engineers. The ERP MINI™ takes this expertise to a higher level having independent sensors and controller, while ERP PRO™ is the top of the range with 3 motors, IR sensors and advanced mechanical elements. The CODING LAB line, through hands-on activities and real-life problem-solving challenges, can really help our next generation of inventors develop STEM expertise and acquire the so much needed 21st century skills.GINOBOT™ Expandable Robot ERP PRO™ Expandable Robot ERP MINI™ Expandable Robot page67master9+engineerswith flow icons & text programmingpage68®CODING GINOBOT™ is the new expandable robot by ENGINO ! LAB®GINOBOT™ has built-in connectors of ENGINO , enabling structural and mechanical expansion. Expandability extends also to open ® ®electronics as GINOBOT™ is connectable to Raspberry Pi , Micro:bit ® ®and Arduino as well to ENGINO ERP sensor modules (not included). This 4-wheel drive version of GINOBOT™ comes with wifi and bluetooth, and has 2 colour sensors built-in at the bottom to follow coloured lines, an ultrasound sensor at the front, 3 Infrared distance sensors and 4 programmable RGB lights!E X PA N D A B L E R O B OTModels to build9+Dimensions:30 x 30 x 8.2 cmProduct code:ROB10
page69CODING ERP MINI™ is the spin-off of tested technologies LAB®by ENGINO , used in schools globally to teach robotics and programming. This gadget version has advanced features and comes with a manually programmable controller that can also be connected with bluetooth to smart devices or with a USB port to a PC. It is programmable with the KEIRO™ software and allows full reconfiguration to create robotic models and includes 2 Infrared distance sensors with 2 motors.Models to build9+E X PA N D A B L E R O B OT9+Models to buildCODING ERP PRO™ is based on the first robotic platform of LAB® ENGINO which has introduced a new era of innovations, leading the global STEM trend. The gadget set, besides the Ultrasonic sensor, one IR sensor and 3 motors, includes an extensive library of mechanical parts with gearing systems to build advanced models including a functional robotic arm and a grabber vehicle. ERP PRO™ comes with a manually programmable controller that can also be connected with bluetooth to smart devices or with a USB port to a PC. It is programmable with the KEIRO™ software and allows full reconfiguration to create robotic models and practice coding with algorithmic reasoning.E X PA N D A B L E R O B OTDimensions:32 x 32 x 9 cmProduct code:ROB20Dimensions:34 x 34 x 9.5 cmProduct code:ROB30page70
page69CODING ERP MINI™ is the spin-off of tested technologies LAB®by ENGINO , used in schools globally to teach robotics and programming. This gadget version has advanced features and comes with a manually programmable controller that can also be connected with bluetooth to smart devices or with a USB port to a PC. It is programmable with the KEIRO™ software and allows full reconfiguration to create robotic models and includes 2 Infrared distance sensors with 2 motors.Models to build9+E X PA N D A B L E R O B OT9+Models to buildCODING ERP PRO™ is based on the first robotic platform of LAB® ENGINO which has introduced a new era of innovations, leading the global STEM trend. The gadget set, besides the Ultrasonic sensor, one IR sensor and 3 motors, includes an extensive library of mechanical parts with gearing systems to build advanced models including a functional robotic arm and a grabber vehicle. ERP PRO™ comes with a manually programmable controller that can also be connected with bluetooth to smart devices or with a USB port to a PC. It is programmable with the KEIRO™ software and allows full reconfiguration to create robotic models and practice coding with algorithmic reasoning.E X PA N D A B L E R O B OTDimensions:32 x 32 x 9 cmProduct code:ROB20Dimensions:34 x 34 x 9.5 cmProduct code:ROB30page70
page71DISCOVERING Science Technology Engineering MathematicsThe purpose of STEM education - Science, Technology, Engineering and Mathematics - is to provide students with the necessary skills, knowledge and experience in order to cope with the technological challenges of the future. Modern pedagogical theories suggest that the study of engineering should be incorporated in all other subjects, starting from elementary level. DISCOVERING STEM series, offers a practical solution for facing all these educational issues, aiding the teacher to engage students in STEM disciplines in a fun, exciting and interesting way! The educational packages are also ideal as a home learning tool! The series covers a broad area of subjects: Mechanics and Simple machines, Structures, Newton’s Laws, Renewable Energy and even Programmable Robotics.STEM MECHANICS: Levers & LinkagesSTEM MECHANICS: Wheels, axles & Inclined planes STEM MECHANICS: Pulley drives STEM MECHANICS: Cams & CranksSTEM MECHANICS: Gears & Worm drivesSTEM STRUCTURES: Buildings & BridgesSTEM NEWTON's LAWS: Inertia, Momentum, Kinetic & Potential EnergySTEM MECHANICS: Levers, Linkages & Structures STEM SOLAR POWER: Converting Sunlight to Electricity STEM ASTRONOMY: Travelling to spaceSTEM PALEONTOLOGY: How dinosaurs livedPHYSICS LAWS: HOW CARS WORK?STEM FLUIDS DYNAMICSSTEM BOTANIC LABORATORY STEM ARCHITECTURE SET: Eiffel Tower and Sydney bridge STEM AMUSEMENT PARK: London Eye & Merry-Go-Round STEM ROBOTICS ERP MINIEnergy ConversionInertia, Friction, Circular Motion & STEM SIMPLE MACHINESmaster9+engineersHOW AIRCRAFTS WORK?
page71DISCOVERING Science Technology Engineering MathematicsThe purpose of STEM education - Science, Technology, Engineering and Mathematics - is to provide students with the necessary skills, knowledge and experience in order to cope with the technological challenges of the future. Modern pedagogical theories suggest that the study of engineering should be incorporated in all other subjects, starting from elementary level. DISCOVERING STEM series, offers a practical solution for facing all these educational issues, aiding the teacher to engage students in STEM disciplines in a fun, exciting and interesting way! The educational packages are also ideal as a home learning tool! The series covers a broad area of subjects: Mechanics and Simple machines, Structures, Newton’s Laws, Renewable Energy and even Programmable Robotics.STEM MECHANICS: Levers & LinkagesSTEM MECHANICS: Wheels, axles & Inclined planes STEM MECHANICS: Pulley drives STEM MECHANICS: Cams & CranksSTEM MECHANICS: Gears & Worm drivesSTEM STRUCTURES: Buildings & BridgesSTEM NEWTON's LAWS: Inertia, Momentum, Kinetic & Potential EnergySTEM MECHANICS: Levers, Linkages & Structures STEM SOLAR POWER: Converting Sunlight to Electricity STEM ASTRONOMY: Travelling to spaceSTEM PALEONTOLOGY: How dinosaurs livedPHYSICS LAWS: HOW CARS WORK?STEM FLUIDS DYNAMICSSTEM BOTANIC LABORATORY STEM ARCHITECTURE SET: Eiffel Tower and Sydney bridge STEM AMUSEMENT PARK: London Eye & Merry-Go-Round STEM ROBOTICS ERP MINIEnergy ConversionInertia, Friction, Circular Motion & STEM SIMPLE MACHINESmaster9+engineersHOW AIRCRAFTS WORK?
Learn how Levers are used to increase a force for lifting heavy objects and how you can create models with complex motion by connecting many levers together. Discover all the types of forces acting on structures and find out ways to reduce their effects. Build 16 working models such as a seesaw, a movable weight scale, a wheelbarrow, a parking gate, a toy with moving figures, a pantograph, a cube and a double deck bridge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge! of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!8 of experimental activities!pages31 of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages23Construct this model of a wheelbarrow and learn how it is used to carry heavy loads, using the elements of levers: fulcrum, effort and load; discovering the properties of second-class levers.build a wheelbarrowHow to carry heavy loads. What a second-class lever is.This model of a folding platform is fully operational and will help you discover how several levers connected together create a linkage that helps us raise the platform. Experiment and discover how we can gain mechanical advantage using Levers.build a folding platformWhat a parallel linkage is.How levers and linkages work together.build a double deck bridgeWhat are the different types of forces.How to create a rigid bridge.Make a working model of a lever crane and learn how it is used for lifting heavy objects, without falling over to the other side. Compare your model with a real one and learn about first-class levers.build a lever craneHow to lift heavy objects.What a first-class lever is.Mechanics: Levers, Linkages & StructuresCreate your own launching pad and send a “rocket” high in the air! Observe how the elastic energy of the spring is converted into kinetic energy. Learn about “escape velocity” and why it is important for real rockets to achieve it in order to leave Earth!build a rocket launcherThe most influential weapon in human history before the invention of gunpowder. Human civilizations relied on archery to provide food and to fight wars. Play with this model to observe the conversion of elastic energy into kinetic and how the forces of action and reaction occur!build a bow and arrowHow energy converts in different forms.Newton's 3rd law of action and reaction.Since antiquity, sharpening wheels were used to shape many tools, such as spears and knives. This was possible due to the force of friction! Experiment with a similar model and learn how friction depends on the materials that are in contact and the reaction force between them.build a sharpening wheelHow friction affects the motion of a body.What Newton's 3rd law of motion is.What elastic energy and spring tension are.What escape velocity is.Bridges can change type through specific modifications. This is simulated easily with the Engino system. Transform a single beam bridge into a double deck bridge and check the rigidity of the two models.Dimensions:31 x 23 x 5.5 cmProduct code:STEM901Dimensions:31 x 23 x 5.5 cmProduct code:STEM902Learn all about Newton’s laws of motion which are the basis of classical mechanics that still describe most everyday life situations. Experiment with kinetic and potential energy in order to discover the properties of energy and how it is transformed from one form to the other. Build 6 working models such as a crash test rig, a rocket launcher, a sharpening wheel, a bow and arrow, a rubber car and an inertia test platform. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Physics Laws: Inertia, Friction, Energy ConversionCircular Motion & This amazing model simulates a car crashing on a wall using the elastic energy of a rubber band and converting it to kinetic energy. Learn how force, acceleration and mass affect the velocity of an object. Learn about the importance of safe driving and fastening your seatbelt.build a crash test rigst ndWhat Newton’s 1 and 2 Law of motion are.What inertia is and how it works.page page73749+ 9+
Learn how Levers are used to increase a force for lifting heavy objects and how you can create models with complex motion by connecting many levers together. Discover all the types of forces acting on structures and find out ways to reduce their effects. Build 16 working models such as a seesaw, a movable weight scale, a wheelbarrow, a parking gate, a toy with moving figures, a pantograph, a cube and a double deck bridge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge! of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!8 of experimental activities!pages31 of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages23Construct this model of a wheelbarrow and learn how it is used to carry heavy loads, using the elements of levers: fulcrum, effort and load; discovering the properties of second-class levers.build a wheelbarrowHow to carry heavy loads. What a second-class lever is.This model of a folding platform is fully operational and will help you discover how several levers connected together create a linkage that helps us raise the platform. Experiment and discover how we can gain mechanical advantage using Levers.build a folding platformWhat a parallel linkage is.How levers and linkages work together.build a double deck bridgeWhat are the different types of forces.How to create a rigid bridge.Make a working model of a lever crane and learn how it is used for lifting heavy objects, without falling over to the other side. Compare your model with a real one and learn about first-class levers.build a lever craneHow to lift heavy objects.What a first-class lever is.Mechanics: Levers, Linkages & StructuresCreate your own launching pad and send a “rocket” high in the air! Observe how the elastic energy of the spring is converted into kinetic energy. Learn about “escape velocity” and why it is important for real rockets to achieve it in order to leave Earth!build a rocket launcherThe most influential weapon in human history before the invention of gunpowder. Human civilizations relied on archery to provide food and to fight wars. Play with this model to observe the conversion of elastic energy into kinetic and how the forces of action and reaction occur!build a bow and arrowHow energy converts in different forms.Newton's 3rd law of action and reaction.Since antiquity, sharpening wheels were used to shape many tools, such as spears and knives. This was possible due to the force of friction! Experiment with a similar model and learn how friction depends on the materials that are in contact and the reaction force between them.build a sharpening wheelHow friction affects the motion of a body.What Newton's 3rd law of motion is.What elastic energy and spring tension are.What escape velocity is.Bridges can change type through specific modifications. This is simulated easily with the Engino system. Transform a single beam bridge into a double deck bridge and check the rigidity of the two models.Dimensions:31 x 23 x 5.5 cmProduct code:STEM901Dimensions:31 x 23 x 5.5 cmProduct code:STEM902Learn all about Newton’s laws of motion which are the basis of classical mechanics that still describe most everyday life situations. Experiment with kinetic and potential energy in order to discover the properties of energy and how it is transformed from one form to the other. Build 6 working models such as a crash test rig, a rocket launcher, a sharpening wheel, a bow and arrow, a rubber car and an inertia test platform. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Physics Laws: Inertia, Friction, Energy ConversionCircular Motion & This amazing model simulates a car crashing on a wall using the elastic energy of a rubber band and converting it to kinetic energy. Learn how force, acceleration and mass affect the velocity of an object. Learn about the importance of safe driving and fastening your seatbelt.build a crash test rigst ndWhat Newton’s 1 and 2 Law of motion are.What inertia is and how it works.page page73749+ 9+
Cars, or automobiles, are probably the most common way for transporting humans and goods. They mayvary in size and design, but all are defined as motor vehicles that run primarily on roads and have wheels. Cars came into global use during ththe 20 century and our developed economies depend on them. Whowas the inventor of the car? What are the basic parts of a car and how do they work? How crucial is safety and comfort for passengers? Which physical laws car engineers need to know? of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages24Formula cars are the elite of motorsports and automobile technology. They are designed for ultimate aerodynamic downforce and maximum performance.build a formulaWhich are the most popular motorsports?What is mechanical advantage?Motor sports drive excellence in car design and innovation in automobile engineering. Build this sports car and read how fuel is burned into power and which are the basic parts of a car.build a sports carHow do pistons work inside the engine?What is the role of the gearbox?build an off-roaderHow the design affects the performance?What is breakover angle?This micro car model demonstrates that compact and elegant designed cars are ideal solutions for city centre driving. Read the booklet and learn the challenges of driving in city centre.build a micro carWhy small cars help in traffic jams?What are airbags and anti-lock brakes?Some of the most powerful helicopters can carry tons of load and support ground forces. This large model of gunship helicopter features long rotor blades and big fuselage.build a gunship helicopterThis model features the propeller which was the fist mechanism for propulsion. Even today, acrobatic aircrafts use this technology to achieve their manoeuvres!build a single proplaneChinook is an iconic helicopter with two rotor blades. This powerful machine can carry numerous passengers and lift outstanding amount of load.build a chinookWhat is moment of inertia?How helicopters counterbalance torque?Helicopters are a special category in aviation. Their ability to land and take off vertically makes them ideal for emergency and rescue scenarios. Build your helicopter model and discover:build a helicopterHow do helicopters fly?Why helicopters need a tail rotor?How helicopters support firefighters?Why drones are important for monitoring?How do pilots control an aircraft?Which aircraft holds the speed record?This experimental model can be usedto verify that cars with shorterwheelbase are more suitable for off-roaddriving. Experiment with themodel to discover:Dimensions:29 x 20.5 x 5.8 cmProduct code:STEM23 of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages24How Cars Work ?Technology of MachinesTravelling with an aircraft for holidays or for business is a very common activity. Airplanes are made to combine fast transportation and safety. The development of aviation is considered as one of the highlights in human history, since it has totally changed the way we travel around the Earth. Are you interested to become a pilot? How do pilots control a plane and do acrobatic manoeuvres? Which forces affect a flight? How do helicopters fly?How Aircrafts Work ?Technology of Machinespage759+Dimensions:29 x 20.5 x 5.8 cmProduct code:STEM24page769+
Cars, or automobiles, are probably the most common way for transporting humans and goods. They mayvary in size and design, but all are defined as motor vehicles that run primarily on roads and have wheels. Cars came into global use during ththe 20 century and our developed economies depend on them. Whowas the inventor of the car? What are the basic parts of a car and how do they work? How crucial is safety and comfort for passengers? Which physical laws car engineers need to know? of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages24Formula cars are the elite of motorsports and automobile technology. They are designed for ultimate aerodynamic downforce and maximum performance.build a formulaWhich are the most popular motorsports?What is mechanical advantage?Motor sports drive excellence in car design and innovation in automobile engineering. Build this sports car and read how fuel is burned into power and which are the basic parts of a car.build a sports carHow do pistons work inside the engine?What is the role of the gearbox?build an off-roaderHow the design affects the performance?What is breakover angle?This micro car model demonstrates that compact and elegant designed cars are ideal solutions for city centre driving. Read the booklet and learn the challenges of driving in city centre.build a micro carWhy small cars help in traffic jams?What are airbags and anti-lock brakes?Some of the most powerful helicopters can carry tons of load and support ground forces. This large model of gunship helicopter features long rotor blades and big fuselage.build a gunship helicopterThis model features the propeller which was the fist mechanism for propulsion. Even today, acrobatic aircrafts use this technology to achieve their manoeuvres!build a single proplaneChinook is an iconic helicopter with two rotor blades. This powerful machine can carry numerous passengers and lift outstanding amount of load.build a chinookWhat is moment of inertia?How helicopters counterbalance torque?Helicopters are a special category in aviation. Their ability to land and take off vertically makes them ideal for emergency and rescue scenarios. Build your helicopter model and discover:build a helicopterHow do helicopters fly?Why helicopters need a tail rotor?How helicopters support firefighters?Why drones are important for monitoring?How do pilots control an aircraft?Which aircraft holds the speed record?This experimental model can be usedto verify that cars with shorterwheelbase are more suitable for off-roaddriving. Experiment with themodel to discover:Dimensions:29 x 20.5 x 5.8 cmProduct code:STEM23 of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages24How Cars Work ?Technology of MachinesTravelling with an aircraft for holidays or for business is a very common activity. Airplanes are made to combine fast transportation and safety. The development of aviation is considered as one of the highlights in human history, since it has totally changed the way we travel around the Earth. Are you interested to become a pilot? How do pilots control a plane and do acrobatic manoeuvres? Which forces affect a flight? How do helicopters fly?How Aircrafts Work ?Technology of Machinespage759+Dimensions:29 x 20.5 x 5.8 cmProduct code:STEM24page769+
Levers & LinkagesLearn how Levers are used to increase a force for lifting heavy objects and how they can change the direction of motion. Find out how you can create models with complex motion by connecting many levers together and learn how these Linkages can be applied to various machines. Build 16 working models such as a seesaw, a movable weight scale, a wheelbarrow, a parking gate, a toy with moving figures, a pantograph and two types of linkages. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Construct this model of a wheelbarrow and learn how it is used to carry heavy loads, using the elements of levers: fulcrum, effort and load; discovering the properties of second-class levers.build a wheelbarrowHow to carry heavy loads.What a second-class lever is.Construct a fully functional model of a letter scale and learn how small objects like envelopes and paper are weighed. Experiment and discover on your own the reasons why a scale might sometimes produce wrong indications.build a letter scaleHow to weigh light objects.What are the reasons for weighing errors.This model of a folding platform is fully operational and will help you discover how several levers connected together create a linkage that helps us raise the platform. Experiment and discover how we can gain mechanical advantage using Levers.build a folding platformWhat a parallel linkage is.How levers and linkages work together.This weight scale of parallel linkages will introduce you to the concept of linkages and help you understand how they work. Find out about parallel motion and how it is used to efficiently weight objects.build a parallel scaleWhat a linkage is.How parallel motion is created.Learn how wheels and axles use friction to move objects easily and how big tyres compare to small tyres. Find out how an inclined plane can be used for lifting heavy objects and how another form of inclined plane, the wedge, is used in every day applications. Build 14 working models such as a launching platform, a door with knob, a well, an airport staircase, an experimental ramp and a splitting wedge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Follow the instructions to build this model of a field tractor and learn how different sizes of wheels produce different results. Learn how the size of the axle also affects the mechanical advantage of the machine.build a car with reverse turning wheels How the size of the wheel matters.How the size of the axle affects motion. Construct this model and find out in what ways the axle and the wheel connect for different purposes. Learn how levers can be used to create a steering wheel, even though this particular one is turning in the wrong direction!build a car that turnsHow the wheel and axle connect.How a wheel is used as a lever.build an airport staircaseHow a staircase reliefs us from effort.What the mechanical advantage of a plane is.This unique model of a car with crane will help you understand the principles of inclined planes and how they help lift heavy loads. Learn how the inclination of the plane affects the amount of effort applied.How inclined planes work.What inclination is.build a car with craneDimensions:37 x 27 x 5.5 cmProduct code:STEM01Dimensions:37 x 27 x 5.5 cmProduct code:STEM02Wheels, Axles &Inclined Planes of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!7 of experimental activities!pages41 of theory and amazing facts!pages18 of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages42Construct a model of an airport staircase that comes on wheels and find out why it is easier to climb an inclined ladder instead of moving straight up. Learn about the mechanical advantage that is gained when an inclined plane is used.page77page789+ 9+
Levers & LinkagesLearn how Levers are used to increase a force for lifting heavy objects and how they can change the direction of motion. Find out how you can create models with complex motion by connecting many levers together and learn how these Linkages can be applied to various machines. Build 16 working models such as a seesaw, a movable weight scale, a wheelbarrow, a parking gate, a toy with moving figures, a pantograph and two types of linkages. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Construct this model of a wheelbarrow and learn how it is used to carry heavy loads, using the elements of levers: fulcrum, effort and load; discovering the properties of second-class levers.build a wheelbarrowHow to carry heavy loads.What a second-class lever is.Construct a fully functional model of a letter scale and learn how small objects like envelopes and paper are weighed. Experiment and discover on your own the reasons why a scale might sometimes produce wrong indications.build a letter scaleHow to weigh light objects.What are the reasons for weighing errors.This model of a folding platform is fully operational and will help you discover how several levers connected together create a linkage that helps us raise the platform. Experiment and discover how we can gain mechanical advantage using Levers.build a folding platformWhat a parallel linkage is.How levers and linkages work together.This weight scale of parallel linkages will introduce you to the concept of linkages and help you understand how they work. Find out about parallel motion and how it is used to efficiently weight objects.build a parallel scaleWhat a linkage is.How parallel motion is created.Learn how wheels and axles use friction to move objects easily and how big tyres compare to small tyres. Find out how an inclined plane can be used for lifting heavy objects and how another form of inclined plane, the wedge, is used in every day applications. Build 14 working models such as a launching platform, a door with knob, a well, an airport staircase, an experimental ramp and a splitting wedge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Follow the instructions to build this model of a field tractor and learn how different sizes of wheels produce different results. Learn how the size of the axle also affects the mechanical advantage of the machine.build a car with reverse turning wheels How the size of the wheel matters.How the size of the axle affects motion. Construct this model and find out in what ways the axle and the wheel connect for different purposes. Learn how levers can be used to create a steering wheel, even though this particular one is turning in the wrong direction!build a car that turnsHow the wheel and axle connect.How a wheel is used as a lever.build an airport staircaseHow a staircase reliefs us from effort.What the mechanical advantage of a plane is.This unique model of a car with crane will help you understand the principles of inclined planes and how they help lift heavy loads. Learn how the inclination of the plane affects the amount of effort applied.How inclined planes work.What inclination is.build a car with craneDimensions:37 x 27 x 5.5 cmProduct code:STEM01Dimensions:37 x 27 x 5.5 cmProduct code:STEM02Wheels, Axles &Inclined Planes of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!7 of experimental activities!pages41 of theory and amazing facts!pages18 of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages42Construct a model of an airport staircase that comes on wheels and find out why it is easier to climb an inclined ladder instead of moving straight up. Learn about the mechanical advantage that is gained when an inclined plane is used.page77page789+ 9+
Pulley DrivesLearn how pulley drives can be used to transfer force with reduced friction and how they can increase force or speed at amazing levels. Pulleys have been used for thousands of years and are essential parts of complex machines in modern times, solving many technological problems. Build 8 working models such as a material lift, a stationary bike, a crane bridge, a blender, a construction crane and a windmill. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Learn how you can transmit power using cams and cranks and how they can be used to convert reciprocal to linear motion. Discover how these mechanisms are crucial elements of many machines even though they are not considered as “Simple Machines”. Build 8 working models of cams & cranks such as a fishing crane, an oil pump, a moving figure, a moving bridge, a sewing machine and a flying eagle. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Cams & Cranks of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages23Play with this realistic model of a stationary bike and learn how simple machines work together in order to produce an outcome. Experiment and discover how velocity depends on the pulley’s size.build a stationary bikeHow simple machines work together.What the relation between force-velocity is.Construct this model of a crane bridge and try to lift some objects, finding out how pulleys can help you lift heavy objects easily. Compare your model with different real life cranes and learn their differences.build a crane bridgeHow to lift heavy objects with a pulley.How real-life cranes work.This model of a construction crane isanother example of the use of pulleys. Experiment and learn how force is transferred from one point to another and how we can gain mechanical advantage.build a construction craneHow to transfer force.What the mechanical advantage of pulleys is.Construct this model of a high speed windmill and learn how pulleys can be used to transfer power from one position to another. Experiment and discover how a small pulley can drive a larger one and how the speed changes from one pulley to the other. build a windmillWhat a belt drive is and how it is used.How to increase or decrease pulley’s speed.Construct a working model of an oil pump and find out how different simple machines work together with cams. Are you up to oil drilling? Turn the crank and see how everything changes position in front of your eyes.build an oil pumpHow you can combine machines.What input and output forces are.This model of a flying eagle is designed to flap its wings by the use of the cam and crank mechanisms. Turn the crank and discover how rotational motion becomes linear. Observe how the flapping motion is produced by the employment of linkages.build an eagle with flapping wingsHow cams and cranks work.How to change the type of motion.Construct a unique fishing crane and learn how the crank helps set this device into motion. Compare your model with a real life one and find out the capabilities of a crank when connected to a string for lifting heavy loads.build a fishing craneHow cranks set machines into motion.How to lift heavy loads using a crank.Build a model of a moving figure that uses cams and learn how you can change the direction of motion and assemble 2 different types of cams. Play with this model and discover the properties of cams.build a moving figureHow you can use Engino to make pear-cams.How you can create timing devices with cams.Dimensions:37 x 27 x 5.5 cmProduct code:STEM03 of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages34Dimensions:37 x 27 x 5.5 cmProduct code: STEM04page page79809+ 9+
Pulley DrivesLearn how pulley drives can be used to transfer force with reduced friction and how they can increase force or speed at amazing levels. Pulleys have been used for thousands of years and are essential parts of complex machines in modern times, solving many technological problems. Build 8 working models such as a material lift, a stationary bike, a crane bridge, a blender, a construction crane and a windmill. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Learn how you can transmit power using cams and cranks and how they can be used to convert reciprocal to linear motion. Discover how these mechanisms are crucial elements of many machines even though they are not considered as “Simple Machines”. Build 8 working models of cams & cranks such as a fishing crane, an oil pump, a moving figure, a moving bridge, a sewing machine and a flying eagle. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Cams & Cranks of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages23Play with this realistic model of a stationary bike and learn how simple machines work together in order to produce an outcome. Experiment and discover how velocity depends on the pulley’s size.build a stationary bikeHow simple machines work together.What the relation between force-velocity is.Construct this model of a crane bridge and try to lift some objects, finding out how pulleys can help you lift heavy objects easily. Compare your model with different real life cranes and learn their differences.build a crane bridgeHow to lift heavy objects with a pulley.How real-life cranes work.This model of a construction crane isanother example of the use of pulleys. Experiment and learn how force is transferred from one point to another and how we can gain mechanical advantage.build a construction craneHow to transfer force.What the mechanical advantage of pulleys is.Construct this model of a high speed windmill and learn how pulleys can be used to transfer power from one position to another. Experiment and discover how a small pulley can drive a larger one and how the speed changes from one pulley to the other. build a windmillWhat a belt drive is and how it is used.How to increase or decrease pulley’s speed.Construct a working model of an oil pump and find out how different simple machines work together with cams. Are you up to oil drilling? Turn the crank and see how everything changes position in front of your eyes.build an oil pumpHow you can combine machines.What input and output forces are.This model of a flying eagle is designed to flap its wings by the use of the cam and crank mechanisms. Turn the crank and discover how rotational motion becomes linear. Observe how the flapping motion is produced by the employment of linkages.build an eagle with flapping wingsHow cams and cranks work.How to change the type of motion.Construct a unique fishing crane and learn how the crank helps set this device into motion. Compare your model with a real life one and find out the capabilities of a crank when connected to a string for lifting heavy loads.build a fishing craneHow cranks set machines into motion.How to lift heavy loads using a crank.Build a model of a moving figure that uses cams and learn how you can change the direction of motion and assemble 2 different types of cams. Play with this model and discover the properties of cams.build a moving figureHow you can use Engino to make pear-cams.How you can create timing devices with cams.Dimensions:37 x 27 x 5.5 cmProduct code:STEM03 of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages34Dimensions:37 x 27 x 5.5 cmProduct code: STEM04page page79809+ 9+
Learn how gears can easily reduce or increase speed, change force or transfer motion from one position to another. Discover how worm drives are used to greatly reduce rotational speed and how screws can convert rotational motion to linear, while greatly increasing force. Build 12 working models such as an experimental crane, a gearbox, a carousel, a helicopter, a screw press and a crane with a rotating arm. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Learn all about buildings and how they literally support our lives! Experiment with different types of bridges and find out how their architecture design provides massive weight support. Discover all the types of forces applied and how engineers manage to reduce their effects. Build 9 working models such as a house, a pyramid and various types of bridges: beam, arch, truss, cable-stayed and suspension bridge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Structures of theory and amazing facts!pages16 of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages35 of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages218A visit to the playground excites both children and grown-ups! Build this model of a fully functional carousel and see how you can rotate the seats at very high speeds. Observe how the seats move higher and higher as they rotate faster and faster!build a carouselHow to increase rotating speed.How to change the direction of motion.This helicopter has high speed rotor blades, powered by 2 crown gears with a high gear ratio. The gears are used to change the direction of motion from horizontal to vertical, while motion is transferred by a series of interconnected shafts.build a helicopterHow to increase rotating speed.How to change the direction of motion.build a crane with rotating armRelation between gear’s teeth and revolutions. What a rachet mechanism is.The folding platform model uses the Engino worm as a screw, similar to the vice model. It converts rotational motion to linear and pushes or pulls the sissor-type linkages to raise or lower the platform.build a folding platform with a screwHow to lift objects using linkages.How a screw behaves like an inclined plane.Gears & Worm DrivesThis exciting model of a cable-stayed bridge is another type of a cable bridge. One famous example of this bridge is the Rio-Antirion bridge in Greece, the world’s longest multi-span cable-stayed bridge.build a cable-stayed bridgeThis fascinating model of a suspension bridge will introduce you to a special type of bridges, the cable bridges! Learn through experimentation how the tension of the cables supports the deck of the bridge.build a suspension bridgeBuild a realistic model of an arch bridge and learn the properties of the arch! See how this bridge can become stable and support a lot of weight by transferring it to the abutments.build an arch bridgeHow weight is redistributed.Which are the elements of an arch bridge.Build two models of a truss bridge, one with the trusses over the deck and one with the trusses under the deck! Learn how triangulation offers great stability and rigidity to a structure. Discover the different types of simple bridges.build a truss bridgeWhich are the different types of truss bridges.How triangulation strengthens a structure.How long spans can be supported effectively.How tension gives stability to the bridge.Which are the different types of cable bridges.What are their advantagesFollow the instructions to build a model of a crane with a rotating arm and discover the relationship between the worm drive’s characteristics and the gears’ revolutions. Learn about the usefulness of the rachet mechanism and how it works.Dimensions:37 x 27 x 5.5 cmProduct code:STEM05page819+Dimensions:37 x 27 x 5.5 cmProduct code:STEM06page829+
Learn how gears can easily reduce or increase speed, change force or transfer motion from one position to another. Discover how worm drives are used to greatly reduce rotational speed and how screws can convert rotational motion to linear, while greatly increasing force. Build 12 working models such as an experimental crane, a gearbox, a carousel, a helicopter, a screw press and a crane with a rotating arm. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Learn all about buildings and how they literally support our lives! Experiment with different types of bridges and find out how their architecture design provides massive weight support. Discover all the types of forces applied and how engineers manage to reduce their effects. Build 9 working models such as a house, a pyramid and various types of bridges: beam, arch, truss, cable-stayed and suspension bridge. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Structures of theory and amazing facts!pages16 of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages35 of theory and amazing facts!pages10 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages218A visit to the playground excites both children and grown-ups! Build this model of a fully functional carousel and see how you can rotate the seats at very high speeds. Observe how the seats move higher and higher as they rotate faster and faster!build a carouselHow to increase rotating speed.How to change the direction of motion.This helicopter has high speed rotor blades, powered by 2 crown gears with a high gear ratio. The gears are used to change the direction of motion from horizontal to vertical, while motion is transferred by a series of interconnected shafts.build a helicopterHow to increase rotating speed.How to change the direction of motion.build a crane with rotating armRelation between gear’s teeth and revolutions. What a rachet mechanism is.The folding platform model uses the Engino worm as a screw, similar to the vice model. It converts rotational motion to linear and pushes or pulls the sissor-type linkages to raise or lower the platform.build a folding platform with a screwHow to lift objects using linkages.How a screw behaves like an inclined plane.Gears & Worm DrivesThis exciting model of a cable-stayed bridge is another type of a cable bridge. One famous example of this bridge is the Rio-Antirion bridge in Greece, the world’s longest multi-span cable-stayed bridge.build a cable-stayed bridgeThis fascinating model of a suspension bridge will introduce you to a special type of bridges, the cable bridges! Learn through experimentation how the tension of the cables supports the deck of the bridge.build a suspension bridgeBuild a realistic model of an arch bridge and learn the properties of the arch! See how this bridge can become stable and support a lot of weight by transferring it to the abutments.build an arch bridgeHow weight is redistributed.Which are the elements of an arch bridge.Build two models of a truss bridge, one with the trusses over the deck and one with the trusses under the deck! Learn how triangulation offers great stability and rigidity to a structure. Discover the different types of simple bridges.build a truss bridgeWhich are the different types of truss bridges.How triangulation strengthens a structure.How long spans can be supported effectively.How tension gives stability to the bridge.Which are the different types of cable bridges.What are their advantagesFollow the instructions to build a model of a crane with a rotating arm and discover the relationship between the worm drive’s characteristics and the gears’ revolutions. Learn about the usefulness of the rachet mechanism and how it works.Dimensions:37 x 27 x 5.5 cmProduct code:STEM05page819+Dimensions:37 x 27 x 5.5 cmProduct code:STEM06page829+
Learn all about Newton’s laws of motion which are the basis of classical mechanics that still describe most everyday life situations. Experiment with kinetic and potential energy in order to discover the properties of energy and how it is transformed from one form to the other. Build 8 working models such as a ballistic catapult, a gravity fan, a collision car, a moving cabin, a balloon powered plane and a dragster. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!123Newton’s LawsBuild a model of a fan which can rotate by the force of gravity! Place the construction between 2 tables and allow the weight of 4 wheels to fall down. As it falls, the string attached rotates the fan blades faster and faster.build a gravity fanThere are many ways to store energy, one is with a balloon. Build this model and see how plane starts flying around the base when the balloon is allowed to release its air. Change the balloon’s position and learn about moments and centrifugal force.build a balloon-powered planeThis fascinating model of a dragster is not only a huge model (60 cm long) but is also self propelled by an elastic spring. Learn by experimenting how the energy stored in a tight rubber band can convert to kinetic energy and speed!build a dragster carHow to store energy in a rubber band.Converting energy from one form to another.build a ballistic catapultHow gravity affects the path of motion.Newton's 3rd law of action and reaction.How potential energy converts to kinetic.The acceleration of gravity and speed.What centrifugal and centripetal forces are.How balloon energy converts to kinetic.Dimensions:31 x 23 x 5.5 cmProduct code:STEM08In ancient times, cities were protected by walls and the only way to destroy them was with the catapult. This model simulates the real catapult’s function and can be tested to see how the force of gravity affects motion and projectile distance. of theory and amazing facts!pages of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages5Learn how rockets are lunched into space and how spacecrafts explore the solar system. Learn about the mission to the Moon and how astronauts live in the International Space Station (ISS). Discover the science of space exploration and the hazardous threats of space environment. Build 5 models such as a rocket, a landing pot, scale, a space robot and a space shuttle. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!page84 of theory and amazing facts!pages11 of step by step instructions!pagespages of revision quiz!2 of experimental activities!pages123AstronomyTravelling to SpaceDiscover the legendary shuttle of space exploration! 355 astronauts and 180 satellites, including components for the International Space Station were sent with the Space Shuttle program!build a space shuttleLearn how manned missions to the moon became possible thanks to the Lunar Module. Astronauts of the Apollo missions used this construction to land on the rough terrain of our natural satellite. build a landing podBuild this model which resembles the lunar rover that was used in Apollo missions to the moon. Learn how the rover was hinged inside the landing pod and how such space robots can help in space exploration.build a space robotHow fast was the lunar rover?Why the rovers were left at the moon? Build this model of a futuristic spacecraft which can travel to distant stars and galaxies. The current technological research is very active on improving the efficiency of space travelling and bringing novel ideas into action. build a future spaceWhy is still difficult to travel at distant galaxies?What is space tourism?How could it land back on Earth?What scientific purpose did it serve?How could it return to the spacecraft?Can such a pod be used for landing on Mars?9+Dimensions:37 x 27 x 5.5 cmProduct code: STEM079+page83
Learn all about Newton’s laws of motion which are the basis of classical mechanics that still describe most everyday life situations. Experiment with kinetic and potential energy in order to discover the properties of energy and how it is transformed from one form to the other. Build 8 working models such as a ballistic catapult, a gravity fan, a collision car, a moving cabin, a balloon powered plane and a dragster. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!123Newton’s LawsBuild a model of a fan which can rotate by the force of gravity! Place the construction between 2 tables and allow the weight of 4 wheels to fall down. As it falls, the string attached rotates the fan blades faster and faster.build a gravity fanThere are many ways to store energy, one is with a balloon. Build this model and see how plane starts flying around the base when the balloon is allowed to release its air. Change the balloon’s position and learn about moments and centrifugal force.build a balloon-powered planeThis fascinating model of a dragster is not only a huge model (60 cm long) but is also self propelled by an elastic spring. Learn by experimenting how the energy stored in a tight rubber band can convert to kinetic energy and speed!build a dragster carHow to store energy in a rubber band.Converting energy from one form to another.build a ballistic catapultHow gravity affects the path of motion.Newton's 3rd law of action and reaction.How potential energy converts to kinetic.The acceleration of gravity and speed.What centrifugal and centripetal forces are.How balloon energy converts to kinetic.Dimensions:31 x 23 x 5.5 cmProduct code:STEM08In ancient times, cities were protected by walls and the only way to destroy them was with the catapult. This model simulates the real catapult’s function and can be tested to see how the force of gravity affects motion and projectile distance. of theory and amazing facts!pages of step by step instructions!pagespages of revision quiz!6 of experimental activities!pages5Learn how rockets are lunched into space and how spacecrafts explore the solar system. Learn about the mission to the Moon and how astronauts live in the International Space Station (ISS). Discover the science of space exploration and the hazardous threats of space environment. Build 5 models such as a rocket, a landing pot, scale, a space robot and a space shuttle. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!page84 of theory and amazing facts!pages11 of step by step instructions!pagespages of revision quiz!2 of experimental activities!pages123AstronomyTravelling to SpaceDiscover the legendary shuttle of space exploration! 355 astronauts and 180 satellites, including components for the International Space Station were sent with the Space Shuttle program!build a space shuttleLearn how manned missions to the moon became possible thanks to the Lunar Module. Astronauts of the Apollo missions used this construction to land on the rough terrain of our natural satellite. build a landing podBuild this model which resembles the lunar rover that was used in Apollo missions to the moon. Learn how the rover was hinged inside the landing pod and how such space robots can help in space exploration.build a space robotHow fast was the lunar rover?Why the rovers were left at the moon? Build this model of a futuristic spacecraft which can travel to distant stars and galaxies. The current technological research is very active on improving the efficiency of space travelling and bringing novel ideas into action. build a future spaceWhy is still difficult to travel at distant galaxies?What is space tourism?How could it land back on Earth?What scientific purpose did it serve?How could it return to the spacecraft?Can such a pod be used for landing on Mars?9+Dimensions:37 x 27 x 5.5 cmProduct code: STEM079+page83
Learn all about the dinosaurs and how they lived in the prehistoric era on Earth. Build 5 motorized dinosaur models such as a brontosaurus, a stegosaurus, a triceratops, a pterodactyl and an ankylosaurus and bring the to motion. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Solar Power of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages312Construct this exciting model of a chopper car and experience the power of the sun. Learn how solar panels work and how weight can be manipulated to control speed.build a solar chopper carCreate this fascinating model of a winch crane and use it for lifting light loads. Learn how force is transferred from one point to another, what the mechanical advantage is and how it can be used.build a solar winch craneCombine two modern technological advancements into one model: the solar powered robot. Observe the energy transformation from solar to electrical. build a solar robotWhat the latest technology advancements are.How energy changes forms.Build this amazing model of a drawbridge and become a traffic controller for cars, ships and pedestrians. Learn how pulleys and strings work together to move objects in the desired direction, using the power of the sun.build a drawbridgeHow real life bridges work.How pulleys help to move objects.How solar panels work.How weight affects speed.How real life cranes work.How force is transferred.Dimensions:43 x 28 x 5.9 cmProduct code:STEM30Climate change and global warming urge scientists to take action and save our planet by reducing carbon emissions. The sun can provide free energy for all of our needs, however, we need to convert it to a useful form. This set includes one 3V solar panel that powers an electrical motor, along with instructions for 16 solar powered models such as a chopper car, a fan, a plane, a robot and a winch crane. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!page8611 1 of theory and amazing facts!pages of step by step instructions!pagespages of revision quiz!2 of experimental activities!pages2PaleontologyHow Dinosaurs LivedConstruct a motorized model of this 3-horned prehistoric creature! An iconic dinosaur who weighted more than an elephant. Set this dinosaur into motion and learn some amazing facts about its physical size and nutrition. build a triceratopsBuild one of the most iconic dinosaurs who lived during the Jurassic period! Brontosaurus was a gigantic dino with a long neck and tail. Bring this dino to life with a motor and learn how its used its body as armour! build a brontosaurusAnkylosaurus was one of the last dinosaurs remaining before the large extinction event that occurred at the end of the Mesozoic Era. The prominent feature of Ankylosaurus was its sharp armour of knobs, plates and spikes.build an ankylosaurusWhich animal has a similar armour?How big were its sharp spikes and bones?build a pterodactylDo they have descendants who survived?How could they fly?What does its name mean?When were first fossils discovered?How big a was the brontosaurus?Why paleontologists seek for fossils? Did you know that dinosaurs had cousins who could fly? Contrary to their large size and mass, pterodactyls had the ability to fly and attack their pray from above. Learn more about this flying reptile of the Jurassic Period.9+Dimensions:37 x 27 x 5.5 cmProduct code: STEM09page859+
Learn all about the dinosaurs and how they lived in the prehistoric era on Earth. Build 5 motorized dinosaur models such as a brontosaurus, a stegosaurus, a triceratops, a pterodactyl and an ankylosaurus and bring the to motion. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Solar Power of theory and amazing facts!pages12 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages312Construct this exciting model of a chopper car and experience the power of the sun. Learn how solar panels work and how weight can be manipulated to control speed.build a solar chopper carCreate this fascinating model of a winch crane and use it for lifting light loads. Learn how force is transferred from one point to another, what the mechanical advantage is and how it can be used.build a solar winch craneCombine two modern technological advancements into one model: the solar powered robot. Observe the energy transformation from solar to electrical. build a solar robotWhat the latest technology advancements are.How energy changes forms.Build this amazing model of a drawbridge and become a traffic controller for cars, ships and pedestrians. Learn how pulleys and strings work together to move objects in the desired direction, using the power of the sun.build a drawbridgeHow real life bridges work.How pulleys help to move objects.How solar panels work.How weight affects speed.How real life cranes work.How force is transferred.Dimensions:43 x 28 x 5.9 cmProduct code:STEM30Climate change and global warming urge scientists to take action and save our planet by reducing carbon emissions. The sun can provide free energy for all of our needs, however, we need to convert it to a useful form. This set includes one 3V solar panel that powers an electrical motor, along with instructions for 16 solar powered models such as a chopper car, a fan, a plane, a robot and a winch crane. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!page8611 1 of theory and amazing facts!pages of step by step instructions!pagespages of revision quiz!2 of experimental activities!pages2PaleontologyHow Dinosaurs LivedConstruct a motorized model of this 3-horned prehistoric creature! An iconic dinosaur who weighted more than an elephant. Set this dinosaur into motion and learn some amazing facts about its physical size and nutrition. build a triceratopsBuild one of the most iconic dinosaurs who lived during the Jurassic period! Brontosaurus was a gigantic dino with a long neck and tail. Bring this dino to life with a motor and learn how its used its body as armour! build a brontosaurusAnkylosaurus was one of the last dinosaurs remaining before the large extinction event that occurred at the end of the Mesozoic Era. The prominent feature of Ankylosaurus was its sharp armour of knobs, plates and spikes.build an ankylosaurusWhich animal has a similar armour?How big were its sharp spikes and bones?build a pterodactylDo they have descendants who survived?How could they fly?What does its name mean?When were first fossils discovered?How big a was the brontosaurus?Why paleontologists seek for fossils? Did you know that dinosaurs had cousins who could fly? Contrary to their large size and mass, pterodactyls had the ability to fly and attack their pray from above. Learn more about this flying reptile of the Jurassic Period.9+Dimensions:37 x 27 x 5.5 cmProduct code: STEM09page859+
This set is a combination of the basic 5 sets of “Discovering STEM” series and covers all simple machines mechanisms. These mechanisms offer a mechanical advantage and are crucial elements of many machines and devices. They are designed to multiply or reduce force, increase or decrease speed and convert one type of motion to another. Build 60 working models that cover the subjects of levers, the wedge, the wheel and axle, the screw, the inclined plane, the pulley, as well as the more advanced gears and linkages! You can find easy-to-follow building instructions for all models either online or in the booklets included. These comprehensive booklets provide detailed explanations of the different scientific principles applied and incorporate innovative experimental activities for hands-on learning. Quiz sections for each chapter are also available to challenge your newly acquired knowledge!Dimensions:43 x 28 x 5.9 cmProduct code:STEM40 of theory and amazing facts!pages70 of step by step instructions!pagespages of revision quiz!25 of experimental activities!pages1615Simple Machineslevers & linkagespage page8788wheels, axles& inclined planespulley drivesgears& worm drivescams & cranks9+
This set is a combination of the basic 5 sets of “Discovering STEM” series and covers all simple machines mechanisms. These mechanisms offer a mechanical advantage and are crucial elements of many machines and devices. They are designed to multiply or reduce force, increase or decrease speed and convert one type of motion to another. Build 60 working models that cover the subjects of levers, the wedge, the wheel and axle, the screw, the inclined plane, the pulley, as well as the more advanced gears and linkages! You can find easy-to-follow building instructions for all models either online or in the booklets included. These comprehensive booklets provide detailed explanations of the different scientific principles applied and incorporate innovative experimental activities for hands-on learning. Quiz sections for each chapter are also available to challenge your newly acquired knowledge!Dimensions:43 x 28 x 5.9 cmProduct code:STEM40 of theory and amazing facts!pages70 of step by step instructions!pagespages of revision quiz!25 of experimental activities!pages1615Simple Machineslevers & linkagespage page8788wheels, axles& inclined planespulley drivesgears& worm drivescams & cranks9+
One of the most important areas in physics is the study of fluids and their fundamental principals. Water and air are the two most important elements for life and both are categorized as fluids. Air motion is what determines the temperature in our rooms. Pipelines are providing water to our homes. Industrial and construction machines use hydraulics to easily lift heavy objects. Airplanes and ships change direction by using aerodynamics and hydrodynamics respectively. Have you ever wondered why objects sink in water, while others float? How does blood flow in our body? How do water tanks operate? With this set you can build 6 different models, including a boat and a submarine, as well as various experimental rigs to learn all about fluid dynamics! Printed building instructions for 4 models are included and 2 more models are available online and through the free kidCAD app for smart devices.Botanic Laboratory14 of theory and amazing facts!pages11 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages221Fluid DynamicsColourful fish, strange species, coral landscapes, shipwrecks and even ancient cities are only 5% from the total treasures one can find in deep oceans! Build your own submarine and experiment with it to learn how the principles of buoyancy help drive these ships.build a submarineHave you ever wondered how you can empty the fluid from a tank when there is no hole on its bottom? The siphon device can transfer fluids from one container to another! Experiment with this model and magically swap water between the two cups.build a siphon deviceSince ancient Rome, water was transferred throughout towns by connecting large containers of water. Build and discover how communicating vessels work and observe the level of water inside the tube.build the communicating vesselsHow communicating vessels workWhat artesian wells are.build a hydraulic platformWhat Pascal law states.How a hydraulic press works.What Archimedes Principle is. How submarines use buoyancy to dive deep.What a siphon device is. How can you create an “upward” flow.Dimensions:41 x 28 x 5.9 cmProduct code: STEM45Hydraulics have multiple applications in engineering. Build an experiential platform which moves by the use of hydraulic pressure from pistons. Learn how pressure is transferred inside tubes and watch it lifting heavy objects with little effort. of step by step instructions!5 of experimental activities!pagesBuild this amazing, fully functional greenhouse model and see your seeds fertilize and grow! Interested to become a young agriculturist? Control the conditions inside your greenhouse and monitor how your plants are affected by temperature, moisture and light levels. Take care of your plants and provide them with proper ventilation through your greenhouse movable parts. Learn about photosynthesis and the life cycle of beans.seeds and soil not includedx12 pots & x12 plastic trays included for planting and growing seed.5ml plastic syringe to water theplants with precision.Learn about the history of agriculture and how people used draft animals (e.g. oxen or bulls) to cultivate the soil. Recreate a scene of a common farming technique from the past by constructing this exciting model of an ox-driven plough.build an ox-driven ploughWhat is the history of agriculture?How was the ox-driven plough used?Build this simple model of a gearbox and experiment with different gear set-ups. Learn how to calculate the gear ratio even when more complex set-ups are assembled. The windows of your greenhouse open and close using gears.build a gearboxWhat is a gearbox?How to calculate the gear ratio? of theory and amazing facts!pages syringes for experimentationpage899+Dimensions:46 x 29 x 5.9 cmProduct code:STEM47page909+pages6
One of the most important areas in physics is the study of fluids and their fundamental principals. Water and air are the two most important elements for life and both are categorized as fluids. Air motion is what determines the temperature in our rooms. Pipelines are providing water to our homes. Industrial and construction machines use hydraulics to easily lift heavy objects. Airplanes and ships change direction by using aerodynamics and hydrodynamics respectively. Have you ever wondered why objects sink in water, while others float? How does blood flow in our body? How do water tanks operate? With this set you can build 6 different models, including a boat and a submarine, as well as various experimental rigs to learn all about fluid dynamics! Printed building instructions for 4 models are included and 2 more models are available online and through the free kidCAD app for smart devices.Botanic Laboratory14 of theory and amazing facts!pages11 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages221Fluid DynamicsColourful fish, strange species, coral landscapes, shipwrecks and even ancient cities are only 5% from the total treasures one can find in deep oceans! Build your own submarine and experiment with it to learn how the principles of buoyancy help drive these ships.build a submarineHave you ever wondered how you can empty the fluid from a tank when there is no hole on its bottom? The siphon device can transfer fluids from one container to another! Experiment with this model and magically swap water between the two cups.build a siphon deviceSince ancient Rome, water was transferred throughout towns by connecting large containers of water. Build and discover how communicating vessels work and observe the level of water inside the tube.build the communicating vesselsHow communicating vessels workWhat artesian wells are.build a hydraulic platformWhat Pascal law states.How a hydraulic press works.What Archimedes Principle is. How submarines use buoyancy to dive deep.What a siphon device is. How can you create an “upward” flow.Dimensions:41 x 28 x 5.9 cmProduct code: STEM45Hydraulics have multiple applications in engineering. Build an experiential platform which moves by the use of hydraulic pressure from pistons. Learn how pressure is transferred inside tubes and watch it lifting heavy objects with little effort. of step by step instructions!5 of experimental activities!pagesBuild this amazing, fully functional greenhouse model and see your seeds fertilize and grow! Interested to become a young agriculturist? Control the conditions inside your greenhouse and monitor how your plants are affected by temperature, moisture and light levels. Take care of your plants and provide them with proper ventilation through your greenhouse movable parts. Learn about photosynthesis and the life cycle of beans.seeds and soil not includedx12 pots & x12 plastic trays included for planting and growing seed.5ml plastic syringe to water theplants with precision.Learn about the history of agriculture and how people used draft animals (e.g. oxen or bulls) to cultivate the soil. Recreate a scene of a common farming technique from the past by constructing this exciting model of an ox-driven plough.build an ox-driven ploughWhat is the history of agriculture?How was the ox-driven plough used?Build this simple model of a gearbox and experiment with different gear set-ups. Learn how to calculate the gear ratio even when more complex set-ups are assembled. The windows of your greenhouse open and close using gears.build a gearboxWhat is a gearbox?How to calculate the gear ratio? of theory and amazing facts!pages syringes for experimentationpage899+Dimensions:46 x 29 x 5.9 cmProduct code:STEM47page909+pages6
The Architecture set demonstrates the ability of to build huge ®ENGINOmodels of impressive size and style, appropriate for ages of 8+. Children discover different types of structures and build two oversized models of the Sydney Bridge and the Eiffel Tower! The set is completed with smaller size models including a cable-stayed bridge, suspension bridge, arch bridge, truss bridge and house from printed instructions booklet and online. The hands-on activity book contains all that students need to know about technological advancements in architecture, with theory and exciting experiments and quizzes with their solutions.Architecture Set of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages215In amusement parks, the main attractions are often the exciting, fast rides or the romantic, slow wheels that offer spectacular views from above. This set includes one geared motor to power four large-scale models of such rides: Ferris wheel, London Eye, merry-go-round and booster ride. Additionally, you can experiment with gears by building four smaller models such as a gearbox, an experimental crane, a carousel and a planetarium. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Amusement Park SetDimensions:49 x 37 x 16 cmProduct code:STEM56 of theory and amazing facts!pages8 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages212page929+Dimensions:49 x 37 x 16 cmProduct code: STEM55page9+91
The Architecture set demonstrates the ability of to build huge ®ENGINOmodels of impressive size and style, appropriate for ages of 8+. Children discover different types of structures and build two oversized models of the Sydney Bridge and the Eiffel Tower! The set is completed with smaller size models including a cable-stayed bridge, suspension bridge, arch bridge, truss bridge and house from printed instructions booklet and online. The hands-on activity book contains all that students need to know about technological advancements in architecture, with theory and exciting experiments and quizzes with their solutions.Architecture Set of theory and amazing facts!pages14 of step by step instructions!pagespages of revision quiz!4 of experimental activities!pages215In amusement parks, the main attractions are often the exciting, fast rides or the romantic, slow wheels that offer spectacular views from above. This set includes one geared motor to power four large-scale models of such rides: Ferris wheel, London Eye, merry-go-round and booster ride. Additionally, you can experiment with gears by building four smaller models such as a gearbox, an experimental crane, a carousel and a planetarium. You can find easy-to-follow building instructions for all models either online or in the booklet included. The booklet provides detailed explanations of the different scientific principles applied and incorporates innovative experimental activities for hands-on learning. A Quiz section is also available to challenge your newly acquired knowledge!Amusement Park SetDimensions:49 x 37 x 16 cmProduct code:STEM56 of theory and amazing facts!pages8 of step by step instructions!pagespages of revision quiz!3 of experimental activities!pages212page929+Dimensions:49 x 37 x 16 cmProduct code: STEM55page9+91
Dimensions:49 x 37 x 8 cmProduct Code: STEM60 Connect two IR sensors to follow a line or detect obstacles.Connect up to 2 motors to drive models independentlyERP SPECIFICATIONS:Dual-core LX6 32-bit processor, up to 240 MHZ.4 MB flash / 520 KB SRAM.USB full speed port (12 Mbit/s).Onboard membrane buttons for manual programming.4 input - output ports. Connect up to 2 sensors digital or analogue and up to 2 motors (servo or analogue).Power source: 3 x AAA batteries (not included).ROBOTICS DEVELOPED FOR TEACHING ROBOTICS PROGRAMMING AT PRIMARY AND SECONDARY EDUCATION ERP 2.0MINI EnginoRobot BT™ app:Utility app:x2 x2Geared 4.5 V MotorProgramming Software license(personal use)USB ConnectingCableTeaching Activities,User manual & Building InstructionsDual Sensor: Obstacle& Color DetectionsoftwareKEIROmodels to build8 page page9394BUILD & PROGRAM YOUR OWN ROBOTERPSoftware9+
Dimensions:49 x 37 x 8 cmProduct Code: STEM60 Connect two IR sensors to follow a line or detect obstacles.Connect up to 2 motors to drive models independentlyERP SPECIFICATIONS:Dual-core LX6 32-bit processor, up to 240 MHZ.4 MB flash / 520 KB SRAM.USB full speed port (12 Mbit/s).Onboard membrane buttons for manual programming.4 input - output ports. Connect up to 2 sensors digital or analogue and up to 2 motors (servo or analogue).Power source: 3 x AAA batteries (not included).ROBOTICS DEVELOPED FOR TEACHING ROBOTICS PROGRAMMING AT PRIMARY AND SECONDARY EDUCATION ERP 2.0MINI EnginoRobot BT™ app:Utility app:x2 x2Geared 4.5 V MotorProgramming Software license(personal use)USB ConnectingCableTeaching Activities,User manual & Building InstructionsDual Sensor: Obstacle& Color DetectionsoftwareKEIROmodels to build8 page page9394BUILD & PROGRAM YOUR OWN ROBOTERPSoftware9+
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