Kids will learn about the physical science principles that keep the robot balanced, making it appear to defy gravity. By constructing seven different models with the motorized gyroscope unit, young engineers can experiment with and learn about the science of gyroscopic devices and the indispensable role they play in our lives.
The models include the gyroscopic robot, a balancing personal vehicle, a gyro horizon (or artificial horizon), a gyrocompass, a balancing game, a tightrope walker, and a flight simulator. At the core of these models is a unique motor-driven gyroscope. A gyroscope is a rapidly spinning wheel mounted in such a way that its axle can move in any direction. Because of the laws of physics, the gyroscope reacts to external forces differently than a non-spinning wheel would: it resists forces in certain directions. This behavior allows it to be used for all sorts of applications related to balance, rotation, and orientation.
Fun, hands-on experiments with the motorized gyroscope unit make these physical laws tangible and easier to comprehend. A child’s spinning toy top is a simple example of a gyroscope.
Dr. Toy’s Best 100 Children’s Products of the Year; Oppenheim Toy Portfolio’s Platinum Award; named a Gold Winner by the National Parenting Publications Awards (NAPPA) Children’s Products competition; named the #4 Toy of the Year by FamilyFun Magazine.