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A 7.0 kg bowling ball moves at 2.25 m/s. How fast must a 2.60 g Ping-Pong ball move so that the two balls have the same kinetic energy? m/s Need Help? Read It

A 7.0 kg bowling ball moves at 2.25 m/s. How fast must a 2.60 g Ping-Pong ball move so that the two balls have the same kinetic energy? m/s Need Help? Read It

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**Physics Problem: Kinetic Energy** A 7.0 kg bowling ball moves at 2.25 m/s. How fast must a 2.60 g Ping-Pong ball move so that the two balls have the same kinetic energy? [Input Field] ___ m/s **Need Help?** [Read It] (Button) *Note*: The solution requires using the formula for kinetic energy, \( KE = \frac{1}{2}mv^2 \), where \( m \) is mass and \( v \) is velocity. To find the velocity of the Ping-Pong ball, equate its kinetic energy to that of the bowling ball and solve for \( v \).
Transcribed Image Text:**Physics Problem: Kinetic Energy** A 7.0 kg bowling ball moves at 2.25 m/s. How fast must a 2.60 g Ping-Pong ball move so that the two balls have the same kinetic energy? [Input Field] ___ m/s **Need Help?** [Read It] (Button) *Note*: The solution requires using the formula for kinetic energy, \( KE = \frac{1}{2}mv^2 \), where \( m \) is mass and \( v \) is velocity. To find the velocity of the Ping-Pong ball, equate its kinetic energy to that of the bowling ball and solve for \( v \).
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