![]() ![]() Suspend the wheel by using the nail or hook as a rope to secure the wheel in the doorway. The bicycle handles should be attached to the wheel’s axle on both sides. It can also explain angular momentum, which is illustrated in terms of precession, momentum, and torque. It demonstrates Newton’s first law of motion as exemplified by the gyroscope. With a little practice, you can build a gyroscope that can perform amazing feats of balance and rotation! Try suspending the gyroscope from different heights, or attaching it to a long string and spinning it in a circle. The spinning top is now a working gyroscope! You can experiment with different sizes and weights of tops to see how they affect the gyroscope’s rotation. As it rotates, the string will wind around the spool. Now, take a toy top and tie it to the center of the string loop. ![]() Suspend the loop from a ceiling or doorframe so that it can rotate freely. Tie the ends of the string together to form a loop. Start by winding a piece of string around a spool. You can build your own gyroscope at home with some simple materials. They are useful in a wide range of applications, from navigation to stabilization. Gyroscopes are devices that measure or maintain rotational motion. ![]()
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