A 30-g bullet is fired with a horizontal velocity of 450 m/s and becomes embedded in block B which has a mass of 3 kg. After the impact, block B slides on 30-kg carrier C until it impacts the end of the carrier. Knowing the impact between B and C is perfectly plastic and the coefficient of kinetic friction between B and C is 0.2, determine the energy loss due to friction and the impacts. (Round the final answers to two decimal places.) 0.5 m B The energy lost due to friction is 2.97 J. The impact loss due to AB impacting the carrier is The impact loss at first impact is 3007.00 J. 27.31 J.
A 30-g bullet is fired with a horizontal velocity of 450 m/s and becomes embedded in block B which has a mass of 3 kg. After the impact, block B slides on 30-kg carrier C until it impacts the end of the carrier. Knowing the impact between B and C is perfectly plastic and the coefficient of kinetic friction between B and C is 0.2, determine the energy loss due to friction and the impacts. (Round the final answers to two decimal places.) 0.5 m B The energy lost due to friction is 2.97 J. The impact loss due to AB impacting the carrier is The impact loss at first impact is 3007.00 J. 27.31 J.
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Transcribed Image Text:A 30-g bullet is fired with a horizontal velocity of 450 m/s and becomes embedded in block B which has a mass of 3 kg. After
the impact, block B slides on 30-kg carrier C until it impacts the end of the carrier. Knowing the impact between B and C is
perfectly plastic and the coefficient of kinetic friction between B and C is 0.2, determine the energy loss due to friction and the
impacts. (Round the final answers to two decimal places.)
0.5 m
B
The energy lost due to friction is
2.97 J.
The impact loss due to AB impacting the carrier is
The impact loss at first impact is 3007.00 J.
27.31 J.
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