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Gravity, air resistance, the material of the ball, and the height from which it was dropped initially.
Yes, assuming the ball has elasticity and you haven't exceeded the height where the ball, when dropped, reaches terminal velocity.
yes up to a certain point as there is more kinetic energy involved.The height of its bounce is limited by its terminal velocity
if it was a continuous velocity then 10mps i guess because that is the terminal velocity when an object is dropped this is another person who answer actuallyn you are wrong terminal velocity is the maximum
The higher the height the ball is dropped from, the higher the height it will bounce to.
sexx
It isn't clear what you mean by the "height of a velocity".
Gravity, air resistance, the material of the ball, and the height from which it was dropped initially.
Because they undergo an acceleration. Free fall velocity is the function of a square.
Yes, assuming the ball has elasticity and you haven't exceeded the height where the ball, when dropped, reaches terminal velocity.
yes up to a certain point as there is more kinetic energy involved.The height of its bounce is limited by its terminal velocity
if it was a continuous velocity then 10mps i guess because that is the terminal velocity when an object is dropped this is another person who answer actuallyn you are wrong terminal velocity is the maximum
Height, angle, and track type. Height, angle, and track type.
31 m/s
The higher the height the ball is dropped from, the higher the height it will bounce to.
39 m\s downward
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.