B7-RT02: SWINGING SIMPLE PENDULA-OSCILLATION FREQUENCY The simple pendulum shown in Case A consists of a mass M attached to a massless string of length L. If the mass is pulled to one side a small distance and released, it will swing back and forth. Cases B, C, and D are variations of this system. A B C D L. 2M M M 2M Rank the oscillation frequency of the masses. OR All Cannot Greatest Least the same determine Explain your reasoning. 327
B7-RT02: SWINGING SIMPLE PENDULA-OSCILLATION FREQUENCY The simple pendulum shown in Case A consists of a mass M attached to a massless string of length L. If the mass is pulled to one side a small distance and released, it will swing back and forth. Cases B, C, and D are variations of this system. A B C D L. 2M M M 2M Rank the oscillation frequency of the masses. OR All Cannot Greatest Least the same determine Explain your reasoning. 327
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The simple pendulum shown in Case Aconsists of a mass Mattached to a massless string of length L If the mass is pulled to one side a small distance and released, it will swing back and forth, Cases B, C, and Dare variations of this system. Rank the oscillation frequency Of the masses. Explain your reasoning.
Transcribed Image Text:B7-RT02: SWINGING SIMPLE PENDULA-OSCILLATION FREQUENCY
The simple pendulum shown in Case A consists of a mass M attached to a massless string of length L. If the mass is
pulled to one side a small distance and released, it will swing back and forth. Cases B, C, and D are variations of this
system.
A
B
C
D
L.
2M
M
M
2M
Rank the oscillation frequency of the masses.
OR
3
All
Cannot
Greatest
Least
the same determine
Explain your reasoning.
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