4. Simple Harmonic Motion: An object is attached to a coiled spring. It is pulled down a distance of 6 inches from its equilibrium position and released. The period of the motion is 4 seconds. a. Show your work for modeling an equation of the objects simple harmonic motion d = a cos wt where d is distance from the rest position and the period is, > 0. A hand sketch may be helpful, but is not required. b. What is the frequency? c. When t = 3 find the distance and interpret it.
4. Simple Harmonic Motion: An object is attached to a coiled spring. It is pulled down a distance of 6 inches from its equilibrium position and released. The period of the motion is 4 seconds. a. Show your work for modeling an equation of the objects simple harmonic motion d = a cos wt where d is distance from the rest position and the period is, > 0. A hand sketch may be helpful, but is not required. b. What is the frequency? c. When t = 3 find the distance and interpret it.
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![4. Simple Harmonic Motion: An object is attached to a coiled spring. It is pulled
down a distance of 6 inches from its equilibrium position and released. The
period of the motion is 4 seconds.
a. Show your work for modeling an equation of the objects simple harmonic
= a cos wt where d is distance from the rest position and the
motion d
2n
period is
,E>0. A hand sketch may be helpful, but is not required.
b. What is the frequency?
c. When t = 3 find the distance and interpret it.
%3!](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2c77a1dd-39ea-4f7a-b68d-5ab752490918%2F03e90f79-4658-4af1-9d81-ca0612e65a62%2F4pmgwq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:4. Simple Harmonic Motion: An object is attached to a coiled spring. It is pulled
down a distance of 6 inches from its equilibrium position and released. The
period of the motion is 4 seconds.
a. Show your work for modeling an equation of the objects simple harmonic
= a cos wt where d is distance from the rest position and the
motion d
2n
period is
,E>0. A hand sketch may be helpful, but is not required.
b. What is the frequency?
c. When t = 3 find the distance and interpret it.
%3!
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