# A 64 kg swimmer steps off a 9.5 m tower. The swimmer comes to a stop 2.0 m below the surface. Find the net force exerted by the water.?

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• A 64 kg swimmer steps off a 9.5 m tower. The swimmer comes to a stop 2.0 m below the surface. Find the net force exerted by the water.?

Answer to A 63 kg swimmer jumps off a 9.5 m ... The swimmer comes to a stop 2.0 m below ... a stop 2.0 m below the surface. Find the net force exerted ...
Positive: 65 %
... A 65 kg swimmer jumps off of a 10.0 m tower. The swimmer comes to a stop 2.0 m below the surface. ... Force exerted on the swimmer by the water while ...
Positive: 62 %

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... and finally comes to a stop in a horizontal ... that is 10 m above the water surface she runs along ... steps off the end of the 3 ...
Positive: 65 %
... 2.5 m, or (c) 2.0 m from the pivot? Section 11–2 ... mass of 0.22 kg and the exercise wheel has a radius of 9.5 cm ... Find the force exerted by ...
Positive: 60 %
Force Diagrams (Free-body Diagrams ... Direction: Gravity (weight) F(G) = m object *g (9.8 m/s 2) Downward: Normal (surface ... and the object receiving ...