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. 

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.
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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