A 1.60-kg object is held 1.30 m above a relaxed, massless vertical spring with a force constant of 315 N/m. The object is dropped onto the spring. (a) How far does the object compress the spring? (b) Repeat part (a), but this time assume a constant air-resistance force of 0.600 N acts on the object during its motion. (c) How far does the object compress the spring if the same experiment is performed on the Moon, where g = 1.63 m/s² and air resistance is neglected?
A 1.60-kg object is held 1.30 m above a relaxed, massless vertical spring with a force constant of 315 N/m. The object is dropped onto the spring. (a) How far does the object compress the spring? (b) Repeat part (a), but this time assume a constant air-resistance force of 0.600 N acts on the object during its motion. (c) How far does the object compress the spring if the same experiment is performed on the Moon, where g = 1.63 m/s² and air resistance is neglected?
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Transcribed Image Text:A 1.60-kg object is held 1.30 m above a relaxed, massless vertical spring with a force constant of 315 N/m. The
object is dropped onto the spring.
(a) How far does the object compress the spring?
(b) Repeat part (a), but this time assume a constant air-resistance force of 0.600 N acts on the object during its
motion.
(c) How far does the object compress the spring if the same experiment is performed on the Moon, where
g = 1.63 m/s² and air resistance is neglected?
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