Rubber Sheet Bowling Ball And Tennis Ball Experiment

The rubber is about 3 mm thick and the cover is also about 3 mm thick.

Rubber sheet bowling ball and tennis ball experiment.

As a continuation of the theme of potential and kinetic energy this lesson introduces the concepts of momentum elastic and inelastic collisions. It would follow a curved path. You can calculate this gravitational force as the product of the mass m and the gravitational field g. Price 100.

A used ball is generally softer than a new ball since ball stiffness depends on the wall thickness and the amount of air inside the ball. If the cloth cover wears down to say 2 mm thickness the ball will become softer. In that sense gravity is pulling on it more. Newton s third law of motion for every action there is a reaction that is equal in magnitude and opposite in direction.

I have never like it as an analogy either. Describe the path of a golf ball when it just reaches the inside edge of the dip. The bowling ball has a greater mass so there s more stuff for gravity to act on. Imagine a perfectly flat big rubber sheet that has a bowling ball in the center of it so it creates a slope.

The bowling ball has a greater mass so it also has a greater gravitational force. In the classic classroom rubber sheet demonstration the marble rolls toward the bowling ball because the earth s gravity causes it to roll down hill. After it has been dropped the tennis ball bounces back somewhat according to its unique drop height. General relativity requires a curvature of space time not just space.

Many sports and games such as baseball and ping pong illustrate the ideas of momentum and collisions. Students can use the associated activities to explore these concepts by bouncing assorted balls on different surfaces and calculating the. But it still doesn t fall any faster. Bouncing ball experiment 3 the experiment will investigate the bounce efficiency of a tennis ball when dropped from different heights.

This is nothing at all like the way general relativity works.