EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
1st Edition
ISBN: 9781337684668
Author: Katz
Publisher: VST
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Chapter 12, Problem 32PQ

(a)

To determine

The speed of each point in meters per second.

(a)

Expert Solution
Check Mark

Answer to Problem 32PQ

The speed of the point at the outer end of the blade having length 20.0 m is 77.6 m/s and the speed of the point at the outer end of the blade having length 40.0 m is 155 m/s .

Explanation of Solution

Write the equation connecting linear speed and the angular speed of a point.

v=rω (I)

Here, v is the linear speed, r is the distance from the point to the axis of rotation and ω is the angular speed.

It is given that both the blades have the same angular speed.

Use equation (I) to find the expression for the linear speed of the point at the outer end of the blade having length 20.0 m .

v20=r20ω (II)

Here, v20 is the linear speed of the point at the outer end of the blade having length 20.0 m, r20 is the distance from the point to the axis of rotation of the blade.

Use equation (I) to find the expression for the linear speed of the point at the outer end of the blade having length 40.0 m .

v40=r40ω (III)

Here, v40 is the linear speed of the point at the outer end of the blade having length 40.0 m, r40 is the distance from the point to the axis of rotation of the blade.

Conclusion:

It is given that the angular speed is 3.88 rad/s .

Substitute 20.0 m for r20 and 3.88 rad/s for ω in equation (II) to find v20 .

  v20=(20.0 m)(3.88 rad/s)=77.6 m/s

Substitute 40.0 m for r40 and 3.88 rad/s for ω in equation (III) to find v40 .

  v40=(40.0 m)(3.88 rad/s)=155 m/s

Therefore, the speed of the point at the outer end of the blade having length 20.0 m is 77.6 m/s and the speed of the point at the outer end of the blade having length 40.0 m is 155 m/s .

(b)

To determine

The angular distance travelled by each point.

(b)

Expert Solution
Check Mark

Answer to Problem 32PQ

The angular distance travelled by each point is 38.8 rad .

Explanation of Solution

Write the equation for the angular velocity.

  ω=ΔθΔt

Here, Δθ is the angular displacement and Δt is the time.

Rewrite the above equation for Δθ .

Δθ=ωΔt (IV)

Equation (IV) shows that angular distance travelled by each point is same since both the blades have same angular speed.

Conclusion:

It is given that the motion is considered for 10.0 s .

Substitute 3.88 rad/s for ω and 10.0 s for Δt in equation (IV) to find Δθ .

  Δθ=(3.88 rad/s)(10.0 s)=38.8 rad

Therefore, the angular distance travelled by each point is 38.8 rad .

(c)

To determine

The translational distance travelled by each point.

(c)

Expert Solution
Check Mark

Answer to Problem 32PQ

The translational distance travelled by the point at the outer end of the blade having length 20.0 m is 776 m and that by the point at the outer end of the blade having length 40.0 m is 1.55×103 m .

Explanation of Solution

The translational distance travelled by each point will be equal to the arc length subtended by the angular displacement of each point.

Write the equation for the arc length.

s=rΔθ (V)

Here, s is the arc length.

Use equation (V) to find the expression for translational distance travelled by the point at the outer end of the blade having length 20.0 m .

s20=r20Δθ (VI)

Here, s20 is the translational distance travelled by the point at the outer end of the blade having length 20.0 m .

Use equation (V) to find the expression for translational distance travelled by the point at the outer end of the blade having length 40.0 m .

s40=r40Δθ (VII)

Here, s40 is the translational distance travelled by the point at the outer end of the blade having length 40.0 m .

Conclusion:

Substitute 20.0 m for r20 and 38.8 rad for Δθ in equation (VI) to find s20 .

  s20=(20.0 m)(38.8 rad)=776 m

Substitute 40.0 m for r40 and 38.8 rad for Δθ in equation (VII) to find s40 .

  s40=(40.0 m)(38.8 rad)=1.55×103 m

Therefore, the translational distance travelled by the point at the outer end of the blade having length 20.0 m is 776 m and that by the point at the outer end of the blade having length 40.0 m is 1.55×103 m .

(d)

To determine

The magnitude of centripetal acceleration that would be experienced by an object located at each point.

(d)

Expert Solution
Check Mark

Answer to Problem 32PQ

The magnitude of centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 20.0 m is 301 m/s2 and that experienced by an object located at the point at the outer end of the blade having length 40.0 m is 602 m/s2 .

Explanation of Solution

Write the equation for the centripetal acceleration.

ac=ω2r (VIII)

Here, ac is the centripetal acceleration.

Use equation (VIII) to find the expression for the centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 20.0 m.

ac,20=ω2r20 (IX)

Here, ac,20 is the centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 20.0 m.

Use equation (VIII) to find the expression for the centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 40.0 m.

ac,40=ω2r40 (X)

Here, ac,40 is the centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 40.0 m.

Conclusion:

Substitute 3.88 rad/s for ω and 20.0 m for r20 in equation (IX) to find ac,20 .

  ac,20=(3.88 rad/s)2(20.0 m)=301 m/s2

Substitute 3.88 rad/s for ω and 40.0 m for r40 in equation (X) to find ac,40 .

  ac,40=(3.88 rad/s)2(40.0 m)=602 m/s2

Therefore, the magnitude of centripetal acceleration that would be experienced by an object located at the point at the outer end of the blade having length 20.0 m is 301 m/s2 and that experienced by an object located at the point at the outer end of the blade having length 40.0 m is 602 m/s2 .

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Chapter 12 Solutions

EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC

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