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A 39-kg girl is bouncing on a trampoline. During a certain interval after leaving the surface of the trampoline her kinetic energy decreases to 160 J from 490 J. How high does she rise during this interval?
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A 39-kg girl is bouncing on a trampoline. During a certain interval after leaving the surface of the trampoline her kinetic energy decreases to 160 J from 490 J. How high does she rise during this interval? Neglect air resistance.

User Pablo Mescher
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4.8k points

1 Answer

2 votes

Answer:

The distance is 0.86 m.

Step-by-step explanation:

Given that,

Mass = 39 kg

Initial kinetic energy,
K.E_(i) = 160\ J

Final kinetic energy,
K.E_(f) = 490\ J

We need to calculate the work done

According to work energy theorem


W = \Delta K.E


W=K.E_(f)-K.E_(i)...(I)

Work done is the product of the force and displacement.


W = mgh....(II)

From equation (I) and (II)


K.E_(f)-K.E_(i)=mgh


490-160=39*9.8* h


h = 0.86\ m

Hence, The distance is 0.86 m.

User Justin Domnitz
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5.0k points
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