FUND.OF PHYSICS(LL)-PRINT..W/ACCESS
FUND.OF PHYSICS(LL)-PRINT..W/ACCESS
12th Edition
ISBN: 9781119773504
Author: Halliday
Publisher: WILEY
Question
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Chapter 10, Problem 1Q

(a)

To determine

The comparison of the magnitude of the tangential acceleration for the instances a,b,c, and d .

(a)

Expert Solution
Check Mark

Answer to Problem 1Q

The magnitude of the tangential acceleration is maximum at an instant c and then at an instant a . And the tangential acceleration at instants b and d is zero.

Explanation of Solution

Given:

A disk rotating like a marry-go table.

And the angular velocity vs the time graph is

  FUND.OF PHYSICS(LL)-PRINT..W/ACCESS, Chapter 10, Problem 1Q , additional homework tip 1

Formula used:

The tangential acceleration is directly proportional to the rate of the change in angular velocity and it is written as,

  at=rdωdt

Here dω is the change in angular velocity with respect to the time t and r is the radius of the circular path.

Calculation:

From the given figure,

The angular velocity is constant for instants b and d . So the tangential acceleration for instant b and d will be zero.

The magnitude of the change in angular velocity with respect to the time is more at instant c as compared to instant a . So, the tangential acceleration at instant c is more as compared to instant a .

Hence, the magnitude of the tangential acceleration is maximum at instant c and then at instant a . And the tangential acceleration at instants b and d is zero.

Conclusion:

The magnitude of the tangential acceleration is maximum at instant c and then at instant a . And the tangential acceleration at instants b and d is zero.

(b)

To determine

The comparison of the magnitude of the radial acceleration for the instances a,b,c, and d .

(b)

Expert Solution
Check Mark

Answer to Problem 1Q

The radial acceleration is maximum at instant b , then the radial acceleration is same at instants a and c . The radial acceleration is minimum or zero at instant d .

Explanation of Solution

Given:

A disk rotating like a marry-go table.

And the angular velocity vs the time graph is

  FUND.OF PHYSICS(LL)-PRINT..W/ACCESS, Chapter 10, Problem 1Q , additional homework tip 2

Formula used:

The radial acceleration is the product of the square of the angular velocity and the radius. So it is written as

  ar=rω2

Here ω is the angular velocity and r is the radius of the circular path.

Calculation:

Since the radius is constant at every time. Only the angular velocity changes with time.

And the radial acceleration is

  ar=rω2

Here, ω is the angular velocity and r is the radius of the circular path.

So, more angular velocity means more radial acceleration.

Now the angular velocity at instant b is highest, so the radial acceleration will be maximum at instant b .

The angular velocity at instant d is minimum or it is 0 , so the radial acceleration will be minimum or zero at instant d .

The angular velocity at instants a and c is the same and it is non-zero, so the radial acceleration is the same at instants a and c . And it is more than the radial acceleration at instant d and less than the radial acceleration at instant b .

Conclusion:

The radial acceleration is maximum at instant b , then the radial acceleration is same at instants a and c . The radial acceleration is minimum or zero at instant d .

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Chapter 10 Solutions

FUND.OF PHYSICS(LL)-PRINT..W/ACCESS

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