If Siobhan Hits A 0.25 Kg Volleyball With 0.5 N Of Force, What Is The Acceleration Of The Ball? M/S2

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If Siobhan Hits A 0.25 Kg Volleyball With 0.5 N Of Force, What Is The Acceleration Of The Ball? M/S2. So, if the acceleration is zero, this means that the rate of change of velocity is zero, which also means that the body is moving. Lf siobhan hits a 0.25 kg volleyball with 0.5 n of force, what is the acceleration of the ball?

F = m * a. Learn how to calculate the acceleration of a volleyball using newton's second law of motion. The acceleration is defined as the rate of change of velocity.

To Find The Acceleration Of The Volleyball, We Can Use Newton's Second Law Of Motion, Which States:

Learn how to calculate the acceleration of a volleyball using newton's second law of motion. So, if the acceleration is zero, this means that the rate of change of velocity is zero, which also means that the body is moving. To find the acceleration (a) of the volleyball, we use newton's second law of motion, which states that acceleration is equal to the force (f) applied divided by the mass (m).

F Is The Force Applied (In Newtons), M Is The Mass Of The Object (In.

The acceleration is defined as the rate of change of velocity. If siobhan hits a 0.25 kg volleyball with 0.5 n of force, what is the acceleration of the ball? The answer is 2 m/s^2, given that the force is 0.5 n and the mass is 0.25 kg.

F = M * A.

Lf siobhan hits a 0.25 kg volleyball with 0.5 n of force, what is the acceleration of the ball?

If siobhan hits a 0.25 kg volleyball with 0.5 n of force, what is the acceleration of the ball? m/s2