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A 1.35-kg wooden block rests on a table over a large hole as in the figure below. A 4.80-g bullet with an initial velocity vi is fired upward into the bottom of the block and remains in the block after the collision. The block and bullet rise to a maximum height of 20.0 cm.

ot (a) Describe how you would find the initial velocity of the bullet using ideas you have learned in this chapter using the conservation of chemical energy you can relate the increased temperature o the block after the collision to the initial speed o the bullet. Then, you can use the conservation of mechanical energ , 〈for the bullet block Earth system to relate the speed after the collision to the maximum height. You can find the center of mass of the system based on how far the bullet stops inside the wooden block. Using the the work-energy theorem you can relate this the change in potential energy of the center of mass to the maximum height, Ug- MgycM. Then, you can use the conservation of energy to relate this potential energy to the initial kinetic energy of the bullet em based sing the MgyCM Using the conservation of momentum, you can relate the speed of the block and bullet right after the collision to the initial speed of the bullet. Then, you can use the conservation of mechanical energy for the bullet-block-Earth system to relate the speed after the collision to the aximum height. of the bullety theorem you can height, ug (b) Calculate the initial velocity of the bullet from the information provided. (Let up be the positive direction.) m/s

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Use conservati on of momentum, then relate the speed of block and bullet right after the colli sion with initi al speed of teh bullet, later use the conservati on of mechanical energy to relate the speed of the bullet block system to the maximum height Option 3 wll be used Initi al momentum of bullet-block system is Final momentum 1s Conserve momentum p,p Conserve mechanical energy Thus initial speed of bullet is m+ M 172 480x10 kg35kg) 980 m/020 4.80 x10-3 kg 558.8 m/s or 559 m/s

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