A 84.0 kg daredevil exhibitionist hangs on to the end of a long bungee cord attached...
A 84.0 kg daredevil exhibitionist hangs on to the end of a long bungee cord attached to the railing of the Brooklyn Bridge and oscillates vertically. (Do NOT try this!) The spring constant of the bungee cord is 105 N/m, and the system's damping constant is 0.137 kg/s. How long does it take for the oscillation amplitude to decrease to 90.6 % of its initial value? time: s What is the frequency of oscillation? frequency: Hz
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A 84.0 kg daredevil exhibitionist hangs on to the end of a long
bungee cord attached...
A 64.0 kg daredevil exhibitionist hangs on to the end of a long bungee cord attached...
A 64.0 kg daredevil exhibitionist hangs on to the end of a long bungee cord attached to the railing of the Brooklyn Bridge and oscillates vertically. (Do NOT try this!) The spring constant of the bungee cord is 1.10×102 N/m, and the system's damping constant is 0.116 kg/s. How long does it take for the oscillation amplitude to decrease to 93.1 % of its initial value? time: s What is the frequency of oscillation? frequency: Hz
A 90 kg student jumps off a bridge with a 8-m-long bungee cord tied to his...
A 90 kg student jumps off a bridge with a 8-m-long bungee cord tied to his feet. The massless bungee cord has a spring constant of 400 N/m. You can assume that the bungee cord exerts no force until it begins to stretch. How far below the bridge is the student's lowest point? How far below the bridge is the student's resting position after the oscillations have been fully damped?
A 59,3 kg bungee jumper jumps off a bridge and undergoes simple harmonic motion. If the...
A 59,3 kg bungee jumper jumps off a bridge and undergoes simple harmonic motion. If the period of oscillation is 20,5 s, what is the spring constant of the bungee cord, assuming it has negligible mass compared to that of the jumper? Answer in two decimal places.
Problem 15.48 A 90 kg student jumps off a bridge with a 12-m-long bungee cord tied...
Problem 15.48 A 90 kg student jumps off a bridge with a 12-m-long bungee cord tied to his feet. The massless bungee cord has a spring constant of 410 N/m. You can assume that the bungee cord exerts no force until it begins to stretch. Part A How far below the bridge is the student's lowest point? Express your answer with the appropriate units. ? MÅ Value O Units [1] = Submit Previous Answers Request Answer X Incorrect; Try Again;...
A spring stretches 25.7 cm from equilibrium when it hangs vertically with a 1.56 kg mass...
A spring stretches 25.7 cm from equilibrium when it hangs vertically with a 1.56 kg mass attached to the spring. a) What is the spring constant of the spring? b) If the spring is pulled further down and released, what is the frequency of the oscillation?
A spring stretches 25.7 cm from equilibrium when it hangs vertically with a 1.56 kg mass...
A spring stretches 25.7 cm from equilibrium when it hangs vertically with a 1.56 kg mass attached to the spring. a) What is the spring constant of the spring? b) If the spring is pulled further down and released, what is the frequency of the oscillation?
A copper rod (length = 2.5 m, radius = 1.60 10-3 m) hangs down from the...
A copper rod (length = 2.5 m, radius = 1.60 10-3 m) hangs down from the ceiling. A 8.8-kg object is attached to the lower end of the rod. The rod acts as a "spring", and the object oscillates vertically with a small amplitude. Ignoring the rod's mass, find the frequency f of the simple harmonic motion. Hz
A compact object with a mass of 4.80 kg oscillates at the end of a vertical...
A compact object with a mass of 4.80 kg oscillates at the end of a vertical spring with a spring constant of 1.60 ✕ 104 N/m. The motion is damped by air resistance, and the damping coefficient is b = 3.00 N · s/m. (a) What is the frequency (in Hz) of the damped oscillation?____________ (b) By what percentage does the amplitude of the oscillation decrease in each cycle? _____________ % (c) Over what time interval (in s) does the...
A metal block with a mass of 8.80 kg oscillates at the end of a vertical...
A metal block with a mass of 8.80 kg oscillates at the end of a vertical spring with a spring constant of 2.20 x 104 N/m. The motion is damped by air resistance, and the damping coefficient is b = 3.00 N. s/m. (a) What is the frequency (in Hz) of the damped oscillation? THz (b) By what percentage does the amplitude of the oscillation decrease in each cycle? % c) Over what time interval (in s) does the energy...
A man of mass 91 kg, is bungee jumping by using an elastic steel cable can...
A man of mass 91 kg, is bungee jumping by using an elastic steel cable can be modeled as an elastic spring without damping as shown in Figure (below). The cable is stretched to a length such that vertical stretched length under static conditions is 16 mm as a SDOF system of vibration. The wind generates the vibration to excite the bridge that can be considered as harmonic motion with frequency 7 Hz and amplitude 5.0 mm. a) What is...
Problem 15.48 A 90 kg student jumps off a bridge with a 12-m-long bungee cord tied to his feet. The massless bungee cord has a spring constant of 410 N/m. You can assume that the bungee cord exerts no force until it begins to stretch. Part A How far below the bridge is the student's lowest point? Express your answer with the appropriate units. ? MÅ Value O Units [1] = Submit Previous Answers Request Answer X Incorrect; Try Again;...
A metal block with a mass of 8.80 kg oscillates at the end of a vertical spring with a spring constant of 2.20 x 104 N/m. The motion is damped by air resistance, and the damping coefficient is b = 3.00 N. s/m. (a) What is the frequency (in Hz) of the damped oscillation? THz (b) By what percentage does the amplitude of the oscillation decrease in each cycle? % c) Over what time interval (in s) does the energy...
A man of mass 91 kg, is bungee jumping by using an elastic steel cable can be modeled as an elastic spring without damping as shown in Figure (below). The cable is stretched to a length such that vertical stretched length under static conditions is 16 mm as a SDOF system of vibration. The wind generates the vibration to excite the bridge that can be considered as harmonic motion with frequency 7 Hz and amplitude 5.0 mm. a) What is...
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