2. Linear Momentum/Work and Energy: A bullet of mass 15 grams is tıred into a block of mass 985 grams, which is attacnea to an uncompressed spring of force constant k = 1.000×10° The velocity of the bullet is parallel to the long dimension of the spring. The spring is anchored to a very massive support and the block rests on a frictionless surface. After the bullet embeds itself in the block, the block and bullet move as one object compressing the spring by 12 cm before coming -- momentarily -- to rest. You may neglect the mass of the spring. Compute the speed of the bullet just before impact.

Please show formula's used and do step for step, please don't cut out any algebra

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Linear Momentum/Work and Energy: A bullet of mass 15 grams is tıred into a block of mass 985 grams, which is attacnea to an uncompressed spring of force constant k = 1.000×10° The velocity of the bullet is parallel to the long dimension of the spring. The spring is anchored to a very massive support and the block rests on a frictionless surface. After the bullet embeds itself in the block, the block and bullet move as one object compressing the spring by 12 cm before coming -- momentarily -- to rest. You may neglect the mass of the spring. Compute the speed of the bullet just before impact. BONUS Compute the quantity of energy dissipated by non-conservative forces during the collision between block and bullet. Vbullet 2.