*81. CD A block rests on a frictionless horizontal surface and is attached to a spring. When set into simple harmonic motion, the block oscillates back and forth with an angular frequency of 7.0 rad/s. The drawing indicates the position of the block when the spring is unstrained. This position is labeled “x = 0 m." The drawing also shows a small bottle located 0.080 m to the right of this position. The block is pulled to the right, stretching the spring by 0.050 m, and is then thrown to the left. In order for the block to knock over the bottle, it must be thrown with a speed exceeding vọ. Ignoring the width of the block, find v,. x = 0m 0.050 m 0.080 m

*81. CD A block rests on a frictionless horizontal surface and is attached to a spring. When set into simple harmonic motion, the block oscillates back and forth with an angular frequency of 7.0 rad/s. The drawing indicates the position of the block when the spring is unstrained. This position is labeled “x = 0 m." The drawing also shows a small bottle located 0.080 m to the right of this position. The block is pulled to the right, stretching the spring by 0.050 m, and is then thrown to the left. In order for the block to knock over the bottle, it must be thrown with a speed exceeding vọ. Ignoring the width of the block, find v,. x = 0m 0.050 m 0.080 m

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Question

*81. CD A block rests on a frictionless horizontal surface and is attached
to a spring. When set into simple harmonic motion, the block oscillates
back and forth with an angular frequency of 7.0 rad/s. The drawing
indicates the position of the block when the spring is unstrained. This
position is labeled “x = 0 m." The drawing also shows a small bottle
located 0.080 m to the right of this position. The block is pulled to the
right, stretching the spring by 0.050 m, and is then thrown to the left.
In order for the block to knock over the bottle, it must be thrown with
a speed exceeding vọ. Ignoring the width of the block, find v,.
x = 0m
0.050 m
0.080 m

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