COLLEGE PHYSICS
COLLEGE PHYSICS
2nd Edition
ISBN: 9781464196393
Author: Freedman
Publisher: MAC HIGHER
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Chapter 12, Problem 45QAP
To determine

(a)

The position function of the object.

Expert Solution
Check Mark

Answer to Problem 45QAP

The position of the object is x(t)=Acos(kMt)

Explanation of Solution

Introduction:

The displacement of the spring performing motion is given by,

  x(t)=Acos(ωt)

Where,

  x(t) = position of object at time t A = amplitude

t = time

  ω =angular velocity

The displacement of the spring performing motion is given by,

  x(t)=Acos(ωt)

But,

  ω=kMx(t)=Acos( k Mt)

Conclusion:

The position of the object is x(t)=Acos(kMt)

To determine

(b)

The velocity of the object at t=7T6.

Expert Solution
Check Mark

Answer to Problem 45QAP

The velocity of the object at t=7T6 is, v(t)=AkMsin(kM×7T6)

Explanation of Solution

Introduction:

The velocity of the particle performing simple harmonic motion,

  v(t)=Aωsin(ωt)

Where,

  v(t) = velocity of object at time t A = amplitude

t = time

  ω =angular velocity

Calculation:

The velocity of the particle performing simple harmonic motion,

  v(t)=Aωsin(ωt)v(t)=AkMsin( k M×7T6)

Conclusion:

The velocity of the object at t=7T6 is, v(t)=AkMsin(kM×7T6)

To determine

(c)

The acceleration of the object at

  t=T4.

Expert Solution
Check Mark

Answer to Problem 45QAP

The acceleration of the object at t=T4 is, a(t)=0

Explanation of Solution

Introduction:

The acceleration of the particle performing simple harmonic motion,

  a(t)=Aω2cos(ωt)

Where,

  a(t) = acceleration of object at time t A = amplitude

t = time

  ω =angular velocity

Calculation:

The acceleration of the particle performing simple harmonic motion,

  a(t)=Aω2cos(ωt)a(t)=Aω2cos(2πT×T4)a(t)=Aω2cos(π2)a(t)=0

Conclusion:

The acceleration of the object at t=T4 is,

  a(t)=0

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Chapter 12 Solutions

COLLEGE PHYSICS

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