Which ball bounced higher when dropped together why do you think so?
Explanation: When all three balls are dropped from the same height, the rubber ball will bounce the highest because it has the greatest elasticity. When the rubber ball hits the ground it gets compressed, or squished, and because it is very elastic, it quickly returns to its original shape.
Does the height you drop a ball from affect how high it bounces?
The bounce of a dropped ball has a direct relation with the release height. So if we double the release height, we will get double bounce height. An elastic surface such as rubber and a very hard surface such as concrete will result the highest bounce level.
Why do balls react differently when you drop them together?
Both the basketball and the tennis ball are moving at the same speed right before they hit the ground. This means they both have some amount of kinetic energy, but the basketball has more due to its larger mass. After the collision, the basketball has a very low speed and thus very little kinetic energy.
Why do different balls bounce at different heights?
Changing Heights Height has a lot to do with potential energy. The higher the ball is positioned, the more its potential energy. As the ball is dropped and gravity forces it downward, the velocity of the ball increases because of the accelerating effects of gravity.
Why is the bounce height lower than the drop height?
The reason it doesn’t bounce higher than where it started is simple: some of the ball’s energy is lost as heat when it bounces, so it doesn’t have as much going up as it did coming down. Knowing that, you might figure that a ball could never bounce higher than the height from which is was dropped.
Which ball bounced higher when dropped together tennis ball or basketball?
tennis ball
The tennis ball bounces higher because the relative speed when it bounces off the basketball is almost double that for when it hit the ground.
Why does a tennis ball bounce higher when dropped from a higher point?
It is anticipated that bounce efficiency will remain constant despite being dropped from different heights, this is due to greater gravitational potential energy transforming into greater elastic potential energy in the tennis ball as it hits the ground, which in turn will increase the bounce height accordingly.
How did the GPE change with height?
Since the gravitational potential energy of an object is directly proportional to its height above the zero position, a doubling of the height will result in a doubling of the gravitational potential energy.
How differently do different balls fall?
How differently do different balls fall? The simple but remarkable answer to that question is, that all balls fall at the same rate. Now remember, we’re neglecting air resistance, which is a pretty good approximation for balls that you just drop in front of you.
Why do balls lose momentum when dropped?
All of the balls lost momentum because there are no perfectly elastic collisions in the real world. Even the most elastic collisions are slightly inelastic. When a ball bounces, energy is transferred to heat, noise or internal energy, which decreases the amount of momentum.