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Q. 19

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Precalculus Enhanced with Graphing Utilities
Found in: Page 550
Precalculus Enhanced with Graphing Utilities

Precalculus Enhanced with Graphing Utilities

Book edition 6th
Author(s) Sullivan
Pages 1200 pages
ISBN 9780321795465

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Short Answer

the displacement d (in meters) of an object at time t (in seconds) is given d=6+2cos(2πt)

(a) Describe the motion of the object.

(b) What is the maximum displacement from its resting position?

(c) What is the time required for one oscillation?

(d) What is the frequency?

a) It is a simple harmonic motion

b) The amplitude is 2

c) The period is 1

D) The frequency is 1hz

See the step by step solution

Step by Step Solution

TABLE OF CONTENTS :
TABLE OF CONTENTS

Step 1: Given information

We are given an equation d=6+2cos(2πt)

Part (a) Step 1: Explanation 

As the object is modeled by cosine function the given wave is simple harmonic.

Part (b) Step 1: The maximum displacement of object from resting position is the amplitude

Comparing the equation with standard wave equation we get a=2

Part (c) Step 1: Find period

We get,

ω=2πT2π=2πTT=1

Part (d) Step 1: Find frequency

We get,

f=1ωf=12π

Step 6: Conclusion

a) It is a simple harmonic motion

b) The amplitude is 2

c) The period is 1

d) The frequency is 1 hz

Most popular questions for Math Textbooks

an object attached to a coiled spring is pulled down a distance a from its rest position and then released. Assuming that the motion is simple harmonic with period T, write an equation that relates the displacement d of the object from its rest position after t seconds. Also assume that the positive direction of the motion is up:

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an object of mass m (in grams) attached to a coiled spring with damping factor b (in grams per second) is pulled down a distance a (in centimeters) from its rest position and then released. Assume that the positive direction of the motion is up and the period is T (in seconds) under simple harmonic motion.

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