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Calculate the kinetic energy of a 0.032 kg ball as it leaves a hand to be thrown upwards at 6.2 m/s
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Calculate the kinetic energy of a 0.032 kg ball as it leaves a hand to be thrown upwards at 6.2 m/s

User Jebil
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1 Answer

4 votes

Answer:

The ball will have a kinetic energy of 0.615 Joules.

Step-by-step explanation:

Use the kinetic energy formula


E_k = (1)/(2)mv^2 = (1)/(2)0.032kg\cdot 6.2^2 (m^2)/(s^2)= 0.615J

The kinetic energy at the moment of leaving the hand will be 0.615 Joules. (From there on, as it ball is traveling upwards, this energy will be gradually traded off with potential energy until the ball's velocity becomes zero at the apex of the flight)

User Webert Lima
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