A 25.0 kg child is on a swing as shown in the diagram. The swing is attached to ropes that are 1.25 m long. When the swing is at its lowest position, the child is 35.0 cm above the ground. a. Find the gravitational potential energy of the child when the swing is at its lowest lowest position. b. Find the gravitational potential energy of the child when the ropes of the swing make an angle of 55° with the vertical. c. When the swing's ropes are 55° to the vertical it is stationary. We can ignore friction. i. Find the child's kinetic energy when the swing reaches its lowest position. ii. Find the child's speed when the swing reaches its lowest position.

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A 25.0 kg child is on a swing as shown in the diagram. The swing is attached to ropes that are
1.25 m long. When the swing is at its lowest position, the child is 35.0 cm above the ground.
a. Find the gravitational potential energy of the child when the swing is at its lowest
lowest position.
b. Find the gravitational potential energy of the child when the ropes of the swing make
an angle of 55° with the vertical.
c. When the swing's ropes are 55° to the vertical it is stationary. We can ignore friction.
i. Find the child's kinetic energy when the swing reaches its lowest position.
ii.
Find the child's speed when the swing reaches its lowest position.
Transcribed Image Text:A 25.0 kg child is on a swing as shown in the diagram. The swing is attached to ropes that are 1.25 m long. When the swing is at its lowest position, the child is 35.0 cm above the ground. a. Find the gravitational potential energy of the child when the swing is at its lowest lowest position. b. Find the gravitational potential energy of the child when the ropes of the swing make an angle of 55° with the vertical. c. When the swing's ropes are 55° to the vertical it is stationary. We can ignore friction. i. Find the child's kinetic energy when the swing reaches its lowest position. ii. Find the child's speed when the swing reaches its lowest position.
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