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ROPE (initially vertical) vA flexible, uniform rope of mass m and length L is initially held motionless over frictionless ice, with one end just touching the ice. At the bottom of the rope is a very small,
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ROPE (initially vertical) vA flexible, uniform rope of mass m and length L is initially held motionless over frictionless ice, with one end just touching the ice. At the bottom of the rope is a very small, frictionless ramp that causes the rope to end up sliding horizontally on the ice with velocity v. What is the magnitude of v?

User Mike Menko
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1 Answer

2 votes

Answer:


V=\sqrt {Lg}\ m/s

Step-by-step explanation:

Given that

Mass = m

Length =L

When rope is vertical then potential energy

u₁ = m g h

h = L/2 Center of mass of rope is at L/2 distance from ground.

u₁ = m g L/2

The final potential energy

u₂=0 (because h will become zero)

Lets the speed speed become V

From energy conservation


mg(L)/(2)=(1)/(2)mV^2


V=\sqrt {Lg}\ m/s

User Liborw
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