not counting variables such as wind resistance and such, no
how does the size of a ball on a plunger affect the amplitude of a wave
As long as they have the same density and mass, size will not affect it
The bigger the ball is the farther it will go.
In the absence of air resistance, it doesn't.
The size of the velocity vector is the speed.
Yes , the affect of the ball does matter of how far it goes.
how does the size of a ball on a plunger affect the amplitude of a wave
your ball size is affected by puberty but your ball size doesnt affect puberty. they will get a lot bigger
how does the size of a ball on a plunger affect the amplitude of a wave
As long as they have the same density and mass, size will not affect it
a ball can never bounce over the height from which it was bounced unless u aplly a force. 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 one; 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. weight also affect the bounce height.
The terminal velocity of a falling object depends upon its aerodynamics (which is to say, its shape) rather than its size and mass.
The bigger the ball is the farther it will go.
The size of a ball does affect how fast it rolls. Surface also play a major role in how fast a ball will move.
In the absence of air resistance, it doesn't.
The size of the velocity vector is the speed.
because a small ball has more density