Starter Kit (Recommended Grades K-3)
Robotis PLAY Series are robotics kit designed to introduce studentsto simple engineering concepts by allowing students to build their own robots. The kits introduce students to the basic parts needed to build robots, including actuators, rivets, motors and more.
Kit 1 (Recommended Grades K-3)
Robotis Play 700 kit introduces coding by having students create programs for their robots through R+ Task and R+ Scratch software.
Kit 2 (Recommended Grades 3-6)
Robotis DREAM robotics kits introduces the fundamentals of mechanical design and the scientific principles of movement, speed, leverage, elasticity, inertia and more. Specifically, Robotis DREAM features:
Level 1Introduces basic robotics movements and their scientific principles such as the center of gravity, force, and electric power.
Level 2Teaches the basics about the structure of robots, IR sensors, and microphone sensors and more scientific and physical principles.
Level 3Teaches various topics from science theory of daily life such as infrared, sound, velocity, acceleration, and friction.
Level 4Teaches the principles of pulleys and other equipment and how to utilize robot peripherals.
Level 5More advanced teaching of robotics including machine equipment introduces scientific principles such as energy transitions.
Kit 3 (Recommended Grades 6-9)
The ROBOTIS STEM kits introduce real-world engineering and physics concepts including centrifugal and centripetal force, angular velocity, the conservation of energy, and more! The STEM kits also introduce DYNAMIXEL actuators, which are used with industrial applications worldwide and introduce principles of robot programming related to them.
Kit 4 (Recommended Grades 8-10)
Robotis Mini is the most advanced robotics kit in the product line and allows your students to integrate concepts explored with the Dynamixel actuators, sensors, LEDs’, and motors explored in previous kits to build their own miniaturized humanoid robot. The Robotis Mini can also be programed using R+ Task and allows students to explore the most advanced C/C++ based programming concepts through programming its Arduino-like open-source embedded controller.