Unlock the fascinating world of construction and data analysis with the fischertechnik Class Set Smart Physics. This comprehensive set offers an engaging and hands-on learning experience, perfectly suited for regular classroom lessons. With ten dynamic models, students can perform a wide range of physics experiments, exploring concepts from accelerated motion and harmonic oscillations to sound wave propagation and spectrum analysis. Integrated smartphones capture experimental data, which is then analysed in real-time using the Phyphox app, providing immediate, detailed insights. By blending theoretical knowledge with practical application, students develop a deep understanding of physical laws while enhancing their problem-solving and analytical skills. Accompanied by specially designed teaching materials, this set is ready for direct implementation in the classroom, making complex physics concepts accessible and exciting for all learners.
Dive into the fascinating world of electronics with our STEM Electronics set! This kit features ten models and 20 experiments that make learning about electronics both fun and informative. It guides students through the foundational principles of electronics, covering a wide range of topics. From simple circuits to more complex components like alternating flashing lights, this set offers a hands-on approach to understanding electronics. Comprehensive information and fully designed tasks with solutions are available through our e-Learning platform.
This construction kit is packed with a variety of physical principles. The STEM Simple Machines set explores the foundations of various tools and machines, including levers, pulleys, and inclined planes. Students don’t just learn about complex mechanical systems like differential gears; they also get to study everyday objects in depth, sparking those 'aha' moments. For example, the mechanics behind a screw clamp or a pulley system are just a few of the fascinating mechanical functions students will explore. The kit also includes a spring balance, allowing students to measure and verify their experimental results.
Why is a triangle so important to the world of statics? Where do we encounter this everywhere in everyday life? These and other statics principles will be explored in a simple and clear way using fischertechnik's STEM Statics Advanced and practical model examples. We will explore topics such as compressive and tensile forces, and statics and forces in the equilibrium. We will be able to measure and check the results of the practical experiments with the help of the spring balance included in the kit. Pupils will have fun and discover the spirit of discovery as they internalise physical ways of thinking and working, and consolidate what they have learned in the long term.
This educational construction set is perfect for aspiring machinists, technicians, and engineers. It provides answers to essential questions like how a drive shaft or manual transmission works, what a planetary gear is, and how to build a stable bridge. With 30 different models, this set covers key topics aligned with STEM curricula in physics, technology, and natural sciences, helping students build a solid foundation in mechanical and technical principles. Mechanics 2.0 is suitable for both guided and independent learning and is already widely used in schools.
Fischertechnik's innovative learning materials effectively teach technical concepts in a hands-on manner, making them accessible to secondary school and college students, as well as apprentices. The included didactic activity booklet, complete with teacher resources and instructional materials, provides display models, tasks, problem-solving exercises, handouts, and copy templates to streamline lesson preparation.
The set includes 500 fischertechnik parts, neatly organized in two sorting trays, all contained in a durable storage box. Clear assembly instructions guide the construction of 30 models, varying in difficulty.
Through self-directed, app-guided learning, students are introduced to everyday tasks, beginning with simple exercises and gradually moving towards more complex circuit challenges. With the help of an easy-to-use controller, a variety of practical sensors and actuators, an intuitive programming app, and durable fischertechnik components, students can apply their knowledge to real-life situations. This hands-on, problem-solving learning method helps students develop technical, methodological, personal, and social skills at various levels. In today’s world, digital literacy and basic programming skills are crucial elements of secondary education. The STEM Coding Max kit provides this essential education through engaging, well-structured, real-world examples, ensuring students acquire these vital skills in an interactive and educational way.
The fischertechnik Robotics TXT 4.0 Base Set is an ideal introduction to professional programming and robotics. This comprehensive kit includes everything needed to start building and programming a wide range of robotic models, making it perfect for educational settings.
The set features a camera with image processing capabilities, an ultrasound sensor, two encoder motors, a track sensor, a phototransistor, two buttons, and two LEDs. These components allow students to create various models, from pedestrian signals to barcode scanners and mobile robots equipped with encoder motors, cameras, and sensors.
The models can be programmed and controlled using the ROBO Pro Coding graphic programming software and the ROBOTICS TXT 4.0 controller. The set is accessible to beginners through ready-made example programs, while more advanced users can dive directly into programming using the Blockly library or Python.
The kit includes twelve models and twenty-five experiments, all supported by comprehensive teaching materials that provide both introductory and advanced information. Key learning objectives covered by this set include understanding analog and digital sensors, data transmission and encryption, coding and decoding, image processing, and both graphic and text-based programming.