In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0235 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.65 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0235 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.65 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter9: Dynamics Of A System Of Particles
Section: Chapter Questions
Problem 9.32P
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![In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the
marble is 0.0235 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial
speed of 5.65 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved
during this collision.
h =
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbe7c7aaf-a489-42e6-99db-7ee4bf4d41ff%2Fc3d1e0e3-5144-45e3-a58a-8b815c2ef84d%2Fj1d0ywc_processed.png&w=3840&q=75)
Transcribed Image Text:In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the
marble is 0.0235 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial
speed of 5.65 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved
during this collision.
h =
m
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