In a game of ice hockey, you use a hockey stick to hit a puck of mass 0.16 kg that slides on essentially frictionless ice. During the hit you exert a constant horizontal force on the puck that gives it an acceleration of 75 m/s2 for a fraction of a second. (a) During the hit, what is the magnitude of the horizontal force that you exert on the puck? (b) How does the magnitude of the normal force due to the ice compare to the weight of the puck?

In a game of ice hockey, you use a hockey stick to hit a puck of mass 0.16 kg that slides on essentially frictionless ice. During the hit you exert a constant horizontal force on the puck that gives it an acceleration of 75 m/s2 for a fraction of a second. (a) During the hit, what is the magnitude of the horizontal force that you exert on the puck? (b) How does the magnitude of the normal force due to the ice compare to the weight of the puck?

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Question

In a game of ice hockey, you use a hockey stick to hit a puck of
mass 0.16 kg that slides on essentially frictionless ice. During the hit you
exert a constant horizontal force on the puck that gives it an acceleration
of
75 m/s2 for a fraction of a second. (a) During the hit, what is the magnitude
of the horizontal force that you exert on the puck? (b) How does the magnitude
of the normal force due to the ice compare to the weight of the puck?

Expert Solution