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Example 13-12 depicts the following secnario. A 0.990kg block slides on a frictionless, horizontal surface with a speed of 1.38 m/s. The block encounters an unstretched spring with a force constant of 218 N/m, as shown in the sketch. Before the block comes to rest, the spring is compressed by 9.30 cm .

Now we will consider some slightly different scenarios related to Example 13-12.
▼ Part A
Suppose the force constant of the spring is doubled, but the mass and speed of the block remain the same. By what multiplicative factor do you expect the maximum compression of the spring to change?
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Part B Complete previous part(s)
Part C
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Find the new maximum compression of the spring.
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Part D
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Find the time required for the mass to come to rest after contacting the spring.
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Example 13-12 depicts the following secnario. A 0.990 kg block slides on a frictionless, horizontal surface with a speed of 1.38 m/s. The block encounters an unstretched spring with a force constant of 218 N/m, as shown in the sketch. Before
the block comes to rest, the spring is compressed by 9.30 cm.
Now we will consider some slightly different scenarios related to Example 13-12.
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