A pendulum consisting of a particle of mass m supported by a light cord of length L is released from a position ho measured from the lowest position, as shown in the figure below. The cord hits a small peg P located at a distance L/2 vertically below the upper end of the pendulum. g L A T ho m How high will the mass swing afterwards? hint: consider the conservation of energy in the system. Oh=ho/2 h=ho Oh=2 ho
A pendulum consisting of a particle of mass m supported by a light cord of length L is released from a position ho measured from the lowest position, as shown in the figure below. The cord hits a small peg P located at a distance L/2 vertically below the upper end of the pendulum. g L A T ho m How high will the mass swing afterwards? hint: consider the conservation of energy in the system. Oh=ho/2 h=ho Oh=2 ho
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![A pendulum consisting of a particle of mass m supported by a light cord of length L is released from a position ho measured from the lowest position,
as shown in the figure below. The cord hits a small peg P located at a distance L/2 vertically below the upper end of the pendulum.
T
ho
m
Ohz ho
g
How high will the mass swing afterwards?
hint: consider the conservation of energy in the system.
h = ho 12
h=2 ho
L
h](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Feaeaf68c-12bd-4432-afa6-6f1bd2c82cdd%2Fbb9c73af-4987-4776-8c83-047355395f8b%2Fb9gvzun_processed.png&w=3840&q=75)
Transcribed Image Text:A pendulum consisting of a particle of mass m supported by a light cord of length L is released from a position ho measured from the lowest position,
as shown in the figure below. The cord hits a small peg P located at a distance L/2 vertically below the upper end of the pendulum.
T
ho
m
Ohz ho
g
How high will the mass swing afterwards?
hint: consider the conservation of energy in the system.
h = ho 12
h=2 ho
L
h
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