Structured Learning with Lesson Plans & Curriculum

Engino® offers comprehensive, ready-to-use lesson plans and curriculum resources designed to support educators in delivering effective STEM education. Our content is aligned with global education standards and tailored to different age groups and learning levels.Each lesson is structured to include learning objectives, hands-on activities, assessment tools, and detailed teacher guides.

STEM Curriculum, Simplified.

Lesson Plans & Curriculum

Engino's curriculum and lesson plans are meticulously designed, encompassing time efficiency, collaborative engagement, clear objectives, and alignment with curriculum standards. These comprehensive plans are easily navigable with our teacher's guide, enabling educators to prepare effectively for their lessons. Moreover, we offer dedicated student books that complement our structured lessons, ensuring students have the necessary resources to maximize their learning experience. Additionally, we provide selected online curriculum resources, free of charge. Engino's curriculum and lesson plans stand as a well-structured, accessible, and enriching educational tool for both educators and students alike.

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Curriculum Platform

The ENGINO® digital curriculum covers all K12 levels of education, starting from Preschool all the way up to Higher education! The Curriculum is divided into four sections: STEM & Robotics Handbook, Lesson Plans, KEIROTM Software Manual and Models Library. Educators can easily follow the Lesson Plans & ideas to carry out the experiments and also refer to the Handbook for more detailed explanations of the different scientific principles applied. Teachers are guided to engage students in STEMand Robotics principles in a fun, exciting and interesting way.

  • Robotics

    Learn how to program arobot and experiment withprogrammable electronics.

  • Wheels, Axles &  Inclined planes

    Find out how wheels and axlesare used to move objects andhow an inclined plane can beused to lift objects.

  • Cams & Cranks

    Discover how cams and cranksmechanisms are crucialelements of many machines.

  • Buildings & Bridges

    Learn how to build rigidconstructions and experimentwith different types of bridges.

  • Solar Power

    The sun can provide energy forall of our needs, however, weneed to convert it to a useful form.

  • Pulley drives

    Explore how pulley drives canbe used to transfer force andhow they can increase force orspeed at amazing levels.

  • Gears & Worm drives

    Examine how gears can easilyreduce or increase speed,change force or transfermotion from one position toanother.

  • Newton’s Laws

    Discover the three Newton’slaws of motion and find outthe secrets of energyconversion.

  • Levers & Linkages

    Discover how levers are usedto increase the force and howlinkages can be applied tovarious machines.

STEM & Robotics Handbook

Every concept begins with a solid theoretical background and clear definitions to build understanding. Adding interesting facts can make learning more engaging and memorable. The importance of a concept becomes clearer when we explore its real-life applications, showing how it’s used in everyday situations. Mathematical formulas help describe the concept in precise terms, and examples tie everything together by demonstrating how the theory works in practice.

Lesson Plans

A well-structured lesson begins with a clear introduction to the topic, setting the stage for what students will explore. Clearly defined learning objectives help guide both teaching and assessment. The building process outlines step-by-step instructions to construct or understand the concept hands-on. The experimental procedure allows students to test ideas and observe outcomes in a controlled way. To reinforce learning, exercises and activities offer practice and engagement, while open project ideas encourage creativity and independent thinking beyond the classroom.

KEIRO Software Manual

Understanding the controller and peripherals is key to managing how a system operates and responds to inputs. Various methods of programming are used to instruct the controller, depending on the application and complexity. Interface and action blocks simplify the coding process by providing visual or modular ways to define behaviors. Different connectivity options—such as USB, Bluetooth, or Wi-Fi allow the system to interact with other devices or networks.

Models Library

A strong theoretical background lays the foundation for understanding key concepts, supported by clear definitions that explain essential terms. Adding interesting facts helps capture attention and deepen curiosity. Exploring real-life applications shows how the concept is used in practical settings, making learning more relevant. Mathematical formulas provide a structured way to analyze or measure the concept, while examples help bridge theory and practice by demonstrating how everything works together in real-world situations.