1. A block rests on a frictionly horizontal plane and is attached to a spring. When set into simple harmonic motion the block oscillates back and forth with an angular frequcy of 5.4 rad/sec as shown by the drawing. 2) When the spring is unstrained the reference point is labeled x=0. 3) A small bottle is located 0.080 to the right of this position. The block is pulled to the right by 0.050 m and then thrown to the left. In order to knock down the bottle it must be thrown with a speed exceeding V0. 4) Ignoring the width of the block, find V0
1. A block rests on a frictionly horizontal plane and is attached to a spring. When set into simple harmonic motion the block oscillates back and forth with an angular frequcy of 5.4 rad/sec as shown by the drawing. 2) When the spring is unstrained the reference point is labeled x=0. 3) A small bottle is located 0.080 to the right of this position. The block is pulled to the right by 0.050 m and then thrown to the left. In order to knock down the bottle it must be thrown with a speed exceeding V0. 4) Ignoring the width of the block, find V0
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1. A block rests on a frictionly horizontal plane and is attached to a spring. When set into simple harmonic motion the block oscillates back and forth with an angular frequcy of 5.4 rad/sec as shown by the drawing.
2) When the spring is unstrained the reference point is labeled x=0.
3) A small bottle is located 0.080 to the right of this position. The block is pulled to the right by 0.050 m and then thrown to the left. In order to knock down the bottle it must be thrown with a speed exceeding V0.
4) Ignoring the width of the block, find V0
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