When a 0.830kg mass oscillates on an ideal spring, the frequency is 1.41Hz. Part A What will the frequency be if 0.210kg are added to the original mass? Try to solve this problem without finding the force constant of the spring. f= Hz SubmitMy Answers Give Up Part B What will the frequency be if 0.210kg are subtracted from the original mass? Try to solve this problem without finding the force constant of the spring.
When a 0.830kg mass oscillates on an ideal spring, the frequency is 1.41Hz. Part A What will the frequency be if 0.210kg are added to the original mass? Try to solve this problem without finding the force constant of the spring. f= Hz SubmitMy Answers Give Up Part B What will the frequency be if 0.210kg are subtracted from the original mass? Try to solve this problem without finding the force constant of the spring.
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4) Please, solve the sub-part (b) only.
![When a 0.830kg mass oscillates on an ideal spring, the frequency is 1.41Hz.
Part A
What will the frequency be if 0.210kg are added to the original mass? Try to solve this problem
without finding the force constant of the spring.
f= Hz
SubmitMy Answers Give Up
Part B
What will the frequency be if 0.210kg are subtracted from the original mass? Try to solve this
problem without finding the force constant of the spring.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1eb1e92c-2333-460d-a975-b9d50edc5951%2F1c3898ce-34f2-4361-8d2f-78029780dbf5%2Fwc93s8g_processed.png&w=3840&q=75)
Transcribed Image Text:When a 0.830kg mass oscillates on an ideal spring, the frequency is 1.41Hz.
Part A
What will the frequency be if 0.210kg are added to the original mass? Try to solve this problem
without finding the force constant of the spring.
f= Hz
SubmitMy Answers Give Up
Part B
What will the frequency be if 0.210kg are subtracted from the original mass? Try to solve this
problem without finding the force constant of the spring.
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