An object weighing 32 lb stretches a spring 2ft in equilibrium. There is also a damping force with c = 8. The spring is raised 2 ft and thrown upwards with a velocity of 4ft/sec. Determine the mass m and the spring constant k, and give the differential equation describing the harmonic motion of this system. : Solve the differential equation to find the displacement y.
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- For an oscillating air-track glider (Figure 1), the force constant of the spring is k=200N/m and the glider mass is m=0.50kg. Now let's find the angular frequency, frequency, and period of the glider's motion. a)suppose we could "tune" this system by varying the mass. What mass would be required for a period of 2.0 s? Express your answer in kilograms.A small bolt with a mass of 41.0 g41.0 g sits on top of a piston. The piston is undergoing simple harmonic motion in the vertical direction with a frequency of 3.25 Hz.3.25 Hz. What is the maximum amplitude with which the piston can oscillate without the bolt losing contact with the piston's surface? Use ?=9.81 m/s2g=9.81 m/s2 for the acceleration due to gravity.A mass m = 3.3 kg is at the end of a horizontal spring on a frictionless horizontal surface. The mass is oscillating with an amplitude A = 4.5 cm and a frequency f = 1.5 Hz. a. Write an equation for the spring constant k. b. Calculate the spring constant k, in Newtons per meter. c. Write an equation for the total mechanical energy, E, of the motion. Your expression should be in terms of the variables in the original problem statement. d. Calculate the total mechanical energy E, in joules.
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