1 metre
On the third bounce, the ball will bounce to a height of 35% of the previous bounce height (35% of 35% of 125m). Therefore, the ball will bounce to a height of (35/100) x (35/100) x 125m = 15.63m on the third bounce.
The bounce height of a ball depends on factors like the material of the ball, the surface it bounces on, and the height from which it is dropped. In general, the bounce height is typically lower than the initial drop height due to energy losses during the bounce.
After each bounce, the ball reaches a height that is 70% of the previous height. The height of the ball after each bounce can be calculated as 10m, 7m, 4.9m, 3.43m, 2.401m, and so on. The ball will be below 2 meters after the 4th bounce.
Yes. Under ideal circumstances - no air resistance, elastic collision (i.e., perfect bounce), the ball should bounce back to the same height from which it was dropped, due to conservation of energy. In practice, some energy is always lost, both due to air resistance and to a non-perfect bounce.
Yes, a ping pong ball typically bounces when it is dropped due to its elastic properties and lightweight construction.
On the third bounce, the ball will bounce to a height of 35% of the previous bounce height (35% of 35% of 125m). Therefore, the ball will bounce to a height of (35/100) x (35/100) x 125m = 15.63m on the third bounce.
The bounce height of a ball depends on factors like the material of the ball, the surface it bounces on, and the height from which it is dropped. In general, the bounce height is typically lower than the initial drop height due to energy losses during the bounce.
After each bounce, the ball reaches a height that is 70% of the previous height. The height of the ball after each bounce can be calculated as 10m, 7m, 4.9m, 3.43m, 2.401m, and so on. The ball will be below 2 meters after the 4th bounce.
If by bounce you mean like a rubber ball bounces: The bounce, or not is determined by the mechanical properties of the battery, and these doesn't change with the battery being charged or not. Dead, or fully charged, a battery will behave just the same when dropped.
Yes. Under ideal circumstances - no air resistance, elastic collision (i.e., perfect bounce), the ball should bounce back to the same height from which it was dropped, due to conservation of energy. In practice, some energy is always lost, both due to air resistance and to a non-perfect bounce.
Not to any appreciable extent. Bounce is caused by the elasticity of the material comprising the ball and the surface on which it is bounced.For example, on concrete a basketball will bounce higher than a baseball, but a golf ball--How high it bounces depends on how much force you exert on it. If you only let it drop, it will not bounce higher that the point you dropped it from and every time it bounces, it will go less and less high. anyway, the bigger the ball, the more force you will have to exert on it to make it bounce higher than the point it was dropped, or "bounced" from.
The factors that affect the bounce of a dropped ball include...... the height from which it is dropped; the force applied to it, if any, when dropped; the acceleration of gravity, which is different depending upon what planet you're on ; the elasticity of the ball; the density of the atmosphere, which affects "air resistance"; and the rigidity and elasticity of the surface on which the ball bounces.
Yes, a ping pong ball typically bounces when it is dropped due to its elastic properties and lightweight construction.
If you mean bounce as like a rubber ball bounces, the answer is no. An AA battery will behave exactly the same if dropped regardless if it's fully charged or completely empty.
75%
how i can solve it by using geometric sequence
The plural form of bounce is bounces