You are an industrial engineer with a shipping company. As part of the package-handling system, a small box with mass 1.60 kg is placed against a light spring that is compressed 0.280 m. The spring, whose other end is attached to a wall, has force constant k = 45.0 N/m. The spring and box are released from rest, and the box travels along a horizontal surface for which the coefficient of kinetic friction with the box is mk = 0.300. When the box has traveled 0.280 m and the spring has reached its equilibrium length, the box loses contact with the spring. (a) What is the speed of the box at the instant when it leaves the spring? (b) What is the maximum speed of the box during its motion?

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You are an industrial engineer with a shipping company.
As part of the package-handling system, a small box with mass 1.60 kg
is placed against a light spring that is compressed 0.280 m. The spring,
whose other end is attached to a wall, has force constant k = 45.0 N/m.
The spring and box are released from rest, and the box travels along a
horizontal surface for which the coefficient of kinetic friction with the
box is mk = 0.300. When the box has traveled 0.280 m and the spring
has reached its equilibrium length, the box loses contact with the spring.
(a) What is the speed of the box at the instant when it leaves the spring?
(b) What is the maximum speed of the box during its motion?

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