A 55 g mass is oscillating on a spring with spring constant of 20 N/m. (a) What is the frequency of the mass on the spring?
(b) If the time constant is 0.35 s, how long does the oscillator take for the amplitude to decrease by 50%?
A 55 g mass is oscillating on a spring with spring constant of 20 N/m. (a)...
A 3.33-kg mass attached to a spring with k = 151 N/m is oscillating in a vat of oil, which damps the oscillations. If the damping constant of the oil is b = 10.3 kg/s, how long will it take the amplitude of the oscillations to decrease to 1.70 % of its original value? What should the damping constant be to reduce the amplitude of the oscillations by 98.3 % in 1.30 s?
A 35-g mass is oscillating on a spring of spring constant 35 N/m. If the total energy is 0.47 J, what is the maximum speed of the mass? m/s
2. A horizontal spring is oscillating and has mass of 200 g. If the spring constant of it is 80 N/m, (a) find out its time period, (b) if spring constant changed to 20 N/m, what will be its time period? (c) If length of the spring is tripled, what will be its time period?
A car and its suspension system act as a block of mass m= on a vertical spring with k 1.2 x 10 N m, which is damped when moving in the vertical direction by a damping force Famp =-rý, where y is the 1200 kg sitting 4. (a) damping constant. If y is 90% of the critical value; what is the period of vertical oscillation of the car? () by what factor does the oscillation amplitude decrease within one period?...
An undamped 1.02-kg horizontal spring oscillator has a spring constant of 29.9 N/m. While oscillating, it is found to have a speed of 2.21 m/s as it passes through its equilibrium position. What is its amplitude of oscillation? What is the oscillator\'s total mechanical energy as it passes through a position that is 0.701 of the amplitude away from the equilibrium position?
An undamped 2.36-kg horizontal spring oscillator has a spring constant of 24.0 N/m. While oscillating, it is found to have a speed of 2.70 m/s as it passes through its equilibrium position. What is its amplitude of oscillation? 0.846m What is the oscillator\'s total mechanical energy as it passes through a position that is 0.794 of the amplitude away from the equilibrium position? _______J
2. A spring with constant 1.46 N/m has an unknown mass attached to it. It is pulled a set distance and released from rest. The resulting graph for position of the unknown mass as a function of time is shown below. Oscillating Mass-Spring System 08 0.6 0.4 02 position (m) 0 -02 5 -0.6 -0.8 1 time (s) a) What is the frequency? b) What is the amplitude? c) What is the angular frequency? d) What is the mass being...
An undamped 2.74-kg horizontal spring oscillator has a spring constant of 32.2 N/m. While oscillating, it is found to have a speed of 3.01 m/s as it passes through its equilibrium position. A. What is its amplitude of oscillation? B.What is the oscillator's total mechanical energy as it passes through a position that is 0.527 of the amplitude away from the equilibrium position?
A 150 g mass is oscillating on a spring with a spring constant of 4.0 N/m. The mass is initially at 15 cm from the equilibrium postion with an initial speed of 85 cm/s. What is its maximum speed x cm/s Submit Answer Practice Another Version
An undamped 2.87 kg horizontal spring oscillator has a spring constant of 26.5 N/m. While oscillating, it is found to have a speed of 3.02 m/s as it passes through its equilibrium position. What is its amplitude of oscillation? amplitude of oscillation: What is the oscillator's total mechanical energy as it passes through a position that is 0.629 of the amplitude away from the equilibrium position? total mechanical energy: