REMARKS Because the impact is inelastic, it would be incorrect to equate the initial kinetic energy of the incoming bullet to the final gravitational potential energy associated with the bullet-block combination. The energy isn't conserved! QUESTION The ways that mechanical energy is lost from the system in this experiment include: (Select all that apply.) thermal energy loss due to air drag friction to bring the bullet to a stop relative to the ground emission of sound waves friction in the mechanisms energy loss from the change in height of the block 00
REMARKS Because the impact is inelastic, it would be incorrect to equate the initial kinetic energy of the incoming bullet to the final gravitational potential energy associated with the bullet-block combination. The energy isn't conserved! QUESTION The ways that mechanical energy is lost from the system in this experiment include: (Select all that apply.) thermal energy loss due to air drag friction to bring the bullet to a stop relative to the ground emission of sound waves friction in the mechanisms energy loss from the change in height of the block 00
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Transcribed Image Text:REMARKS Because the impact is inelastic, it would be incorrect to equate the initial kinetic energy of
the incoming bullet to the final gravitational potential energy associated with the bullet-block combination.
The energy isn't conserved!
QUESTION The ways that mechanical energy is lost from the system in this experiment include: (Select
all that apply.)
Othermal energy loss due to air drag
friction to bring the bullet to a stop relative to the ground
emission of sound waves
friction in the mechanisms
energy loss from the change in height of the block
000
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