A somewhat deflated volleyball (m = 220 g) falls on the floor from a height of 2.0 m, starting from rest. The collision between the ball and the floor takes 0.30 s and is perfectly elastic. (a) Find the speed of the ball on the way up after the impact. (b) Write an expression for the net force acting on the ball using the linear behaviour model. (c) Sketch the net force acting on the ball as a function of time, using the linear behaviour model. (d) Find the maximum value for the net force i need fourth part answer
A somewhat deflated volleyball (m = 220 g) falls on the floor from a height of 2.0 m, starting from rest. The collision between the ball and the floor takes 0.30 s and is perfectly elastic. (a) Find the speed of the ball on the way up after the impact. (b) Write an expression for the net force acting on the ball using the linear behaviour model. (c) Sketch the net force acting on the ball as a function of time, using the linear behaviour model. (d) Find the maximum value for the net force i need fourth part answer
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A somewhat deflated volleyball (m = 220 g) falls on the floor from a height of 2.0 m,
starting from rest. The collision between the ball and the floor takes 0.30 s and is perfectly
elastic.
(a) Find the speed of the ball on the way up after the impact.
(b) Write an expression for the net force acting on the ball using the linear behaviour
model.
(c) Sketch the net force acting on the ball as a function of time, using the linear behaviour
model.
(d) Find the maximum value for the net force
i need fourth part answer
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