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10 Nov 2019
Please show work! I will be promt in rating answer -- Thankyou
An 80.0 - kg bungee jumper is enjoying an afternoon of jumps. The jumper's first oscillation has an amplitude of 10.0 m and a period of 5.00 s. Treating the bungee cord as a spring with no damping, calculate each of the following: the spring constant of the bungee cord, the bungee jumper's maximum speed during the oscillation, and the time for the amplitude to decrease to 2.00 m (with air resistance providing the damping of the oscillations at 7.50 kg/s).
Please show work! I will be promt in rating answer -- Thankyou
An 80.0 - kg bungee jumper is enjoying an afternoon of jumps. The jumper's first oscillation has an amplitude of 10.0 m and a period of 5.00 s. Treating the bungee cord as a spring with no damping, calculate each of the following: the spring constant of the bungee cord, the bungee jumper's maximum speed during the oscillation, and the time for the amplitude to decrease to 2.00 m (with air resistance providing the damping of the oscillations at 7.50 kg/s).
Nelly StrackeLv2
21 Jun 2019