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1) A mass on a spring is oscillating at a frequency of 17 Hz with a...
1) A mass on a spring is oscillating at a frequency of 17 Hz with a...
1) A mass on a spring is oscillating at a frequency of 17 Hz with a maximum displacement of 0.06 m. a) What is the period of oscillation? b) What is the maximum speed? c) What is the maximum acceleration? d) At what position or positions does the mass have the maximum acceleration?
1) A mass on a spring is oscillating at a frequency of 17 Hz with a...
1) A mass on a spring is oscillating at a frequency of 17 Hz with a maximum displacement of 0.06 m. a) What is the period of oscillation? b) What is the maximum speed? c) What is the maximum acceleration? d) At what position or positions does the mass have the maximum acceleration?
2. Following problem 1, the same spring-mass is oscillating, but the friction is involved. The spring-mass starts oscillating at the top so that its displacement function is x Ae-yt cos(wt)...
2. Following problem 1, the same spring-mass is oscillating, but the friction is involved. The spring-mass starts oscillating at the top so that its displacement function is x Ae-yt cos(wt)t is observed that after 5 oscillation, the amplitude of oscillations has dropped to three-quarter (three-fourth) of its initial value. (a) 2 pts] Estimate the value ofy. Also, how long does it take the amplitude to drop to one-quarter of initial value? 0 Co [2 pts] Estimate the value of damping...
A mass m = 3 kg is attached to a spring with spring constant k =...
A mass m = 3 kg is attached to a spring with spring constant k = 3 N/m and oscillates with simple harmonic motion along the x-axis with an amplitude A = 0.10 m. (a) What is the angular frequency of this oscillation? (b) What is the period T and the frequency f of the oscillation? (c) If the phase constant = 0, write down expressions for the displacement, velocity and acceleration of the mass as a function...
The end of a diving board can oscillate with a frequency of 2.9 Hz. Assume it...
The end of a diving board can oscillate with a frequency of 2.9 Hz. Assume it behaves like a simple harmonic oscillator in what follows. Before we deal with the diving board, first consider you have a mass, ?m, on a spring with spring constant, ?, oscillating with a certain frequency, ? and amplitude, ?. Derive an equation for ... a) the magnitude of the maximum speed of the oscillator in terms of the frequency, ? and the amplitude of...
3.) An oscillating block-spring system has a mechanical energy of 1 J, an amplitude of 10...
3.) An oscillating block-spring system has a mechanical energy of 1 J, an amplitude of 10 cm and a maximum speed of 1.2 m/s. Find (a) the spring constant (b) the mass of the block and (c) the frequency of oscillation. [200 N/m; 1.39 kg; f#1.91 Hz
A 20 g mass-spring system is suspended vertically. If 20 g is added, it stretches 5...
A 20 g mass-spring system is suspended vertically. If 20 g is
added, it stretches 5 cm. (Assume the mass of the spring is
negligible)
A) The spring constant is
________ N/m.
From equilibrium position give mass-spring a speed of
1.2 m/s.
B1) Period of oscillation is ______ s
B2) Maximum speed of the the spring-mass system is _______
m/s.
B3) The equation of motion of the oscillating spring is
_______.
B4) The maximum kinetic energy of the spring is...
A block of mass m is 650 g which is tied to a spring whose spring...
A block of mass m is 650 g which is tied to a spring whose spring constant is 62 N/m. The block is pulled a distance x=11 cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t=0 s. What are the angular frequency, the frequency, and the period of the resulting motion? What is the amplitude of the oscillation? What is the maximum speed Vm of the oscillating block, and where is the...
A 190 g mass attached to a horizontal spring oscillates at a frequency of 1.30 Hz...
A 190 g mass attached to a horizontal spring oscillates at a frequency of 1.30 Hz . At t =0s, the mass is at x= 7.00 cm and has vx =− 38.0 cm/s . Determine: A) The maximum speed B) The maximum acceleration C) The total energy. D) The position at t= 3.40 s
A 265 g mass attached to a horizontal spring oscillates at a frequency of 5.20 Hz...
A 265 g mass attached to a horizontal spring oscillates at a frequency of 5.20 Hz . At t =0s, the mass is at x= 4.80 cm and has vx =− 24.0 cm/s . Determine: a) The phase constant b) the maximum speed c) the maximum acceleration d) the total energy e) the position at t= 0.40 s
1) A mass on a spring is oscillating at a frequency of 17 Hz with a maximum displacement of 0.06 m. a) What is the period of oscillation? b) What is the maximum speed? c) What is the maximum acceleration? d) At what position or positions does the mass have the maximum acceleration?
1) A mass on a spring is oscillating at a frequency of 17 Hz with a maximum displacement of 0.06 m. a) What is the period of oscillation? b) What is the maximum speed? c) What is the maximum acceleration? d) At what position or positions does the mass have the maximum acceleration?
2. Following problem 1, the same spring-mass is oscillating, but the friction is involved. The spring-mass starts oscillating at the top so that its displacement function is x Ae-yt cos(wt)t is observed that after 5 oscillation, the amplitude of oscillations has dropped to three-quarter (three-fourth) of its initial value. (a) 2 pts] Estimate the value ofy. Also, how long does it take the amplitude to drop to one-quarter of initial value? 0 Co [2 pts] Estimate the value of damping...
3.) An oscillating block-spring system has a mechanical energy of 1 J, an amplitude of 10 cm and a maximum speed of 1.2 m/s. Find (a) the spring constant (b) the mass of the block and (c) the frequency of oscillation. [200 N/m; 1.39 kg; f#1.91 Hz
A 20 g mass-spring system is suspended vertically. If 20 g is
added, it stretches 5 cm. (Assume the mass of the spring is
negligible)
A) The spring constant is
________ N/m.
From equilibrium position give mass-spring a speed of
1.2 m/s.
B1) Period of oscillation is ______ s
B2) Maximum speed of the the spring-mass system is _______
m/s.
B3) The equation of motion of the oscillating spring is
_______.
B4) The maximum kinetic energy of the spring is...
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