(a)
Angular speed of each child.
(a)
Answer to Problem 36PQ
Angular speed of each child is
Explanation of Solution
Both the child in the question are situated in two different locations. But all points on a rigid rotator rotate with the same angular speed
Write the equation to find the angular speed of the child at the outer edge.
Here,
Conclusion:
Substitute
Therefore, angular speed of each child is
(b)
The angular distance travelled by each child in
(b)
Answer to Problem 36PQ
The angular distance moved by each child in
Explanation of Solution
The angular speed of both the children are same. Therefore the
Write the equation to find the
Here,
Rearrange equation (II) to get
Conclusion:
Substitute
Therefore, the angular distance moved by each child in
(c)
The distance in meters moved by the child in
(c)
Answer to Problem 36PQ
The distance moved by child on inner edge of disc is
Explanation of Solution
The distance moved by each child is different since they are placed at different distance from the center of the disc.
Write the equation to find the distance travelled by the child on the outer edge.
Here,
Write the equation to find the distance travelled by the child on the inner edge.
Here,
Conclusion:
Substitute
Substitute
Therefore, the distance moved by child on inner edge of disc is
(d)
The
(d)
Answer to Problem 36PQ
The centripetal force on child on the outer edge is
Explanation of Solution
Write the equation to find the centripetal force on child on outer edge.
Here,
Write the equation to find the centripetal force on child on inner edge.
Here,
Conclusion:
Substitute
Substitute
Therefore, the centripetal force on child on the outer edge is
The centripetal force acting on the child on outer edge is more. As the magnitude of centripetal force increases, the child will experience strong outward force which makes holding on difficult.
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Chapter 12 Solutions
EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
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