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A tennis ball bounces on the floor three times. If each time it loses 11% of its energy due to heating, how high does it rise after the third bounce, provided we released it 4.4 m from the floor?
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A tennis ball bounces on the floor three times. If each time it loses 11% of its energy due to heating, how high does it rise after the third bounce, provided we released it 4.4 m from the floor?

User Nathanael Weiss
by
5.7k points

1 Answer

5 votes

Answer:

h = 3.10 m

Step-by-step explanation:

As we know that after each bounce it will lose its 11% of energy

So remaining energy after each bounce is 89%

so let say its initial energy is E

so after first bounce the energy is


E_1 = 0.89 E

after 2nd bounce the energy is


E_2 = 0.89(0.89 E)

After third bounce the energy is


E_3 = (0.89)(0.89)(0.89)E

here initial energy is given as


E = mgH_o

now let say final height is "h" so after third bounce the energy is given as


E_3 = mgh

now from above equation we have


mgh = (0.89)(0.89)(0.89)(mgH)


h = 0.705H


h = 0.705(4.4 m)


h = 3.10 m

User Alex Warren
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5.9k points
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