1. If the frequency of a mass on a spring is halved and the amplitude stays...

Which of the following statements concerning a mass on a spring undergoing simple harmonic motion is...

Which of the following statements concerning a mass on a spring undergoing simple harmonic motion is false. a) If the mass is doubled and the spring constant is doubled the period of motion stays the same. b) If the amplitude is doubled the period of motion is doubled. c) If the mass is quadrupled then the period of motion is doubled. d) If the amplitude is doubled the period of motion stays the same. e) If the spring constant is...

A frictionless spring system has k value of 1000N/m, amplitude of 15cm, mass of 100g. Calculate...

A frictionless spring system has k value of 1000N/m, amplitude of 15cm, mass of 100g. Calculate the following: a) the speed of the mass when x is 10cm b) the acceleration of the mass when x is 5cm c) the force of the mass when x is 15cm d) the kinetic energy and potential energy when x is 8cm e) the frequency and period.

(a) A 350-g mass is oscillating on a horizontal spring with a frequency of 20 Hz....

(a) A 350-g mass is oscillating on a horizontal spring with a frequency of 20 Hz. What is the spring constant of the spring? (b) How much total energy does the mass-and-spring combination have if its amplitude is 2.0 cm? (c) If the mass were hung from a light string, what length would the string have to be so that the resulting pendulum would have a period ten times that of the mass-and-spring combination in part (a)?

A particle with mass 2.61 kg oscillates horizontally at the end of a horizontal spring. A...

A particle with mass 2.61 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of 0.923 m and a duration of 129 s for 65 cycles of oscillation. Find the frequency, ?, the speed at the equilibrium position, ?max, the spring constant, ?, the potential energy at an endpoint, ?max, the potential energy when the particle is located 68.5% of the amplitude away from the equiliibrium position, ?, and the kinetic energy, ?, and...

Consider a mass-spring system. The spring has constant k=30N/m and the mass m=3kg. The mass oscillates...

Consider a mass-spring system. The spring has constant k=30N/m and the mass m=3kg. The mass oscillates with amplitude of 10cm. What is the frequency of oscillation? What is the displacement at time t=0? When is the first time for the mass to be at maximum displacement? (t=?) What is the maximum acceleration felt by the mass? Where in the motion does this occur? What is the minimum acceleration felt by the mass? Where in the motion does this occur? What...

A 205 g mass attached to a horizontal spring oscillates at a frequency of 1.00 Hz...

A 205 g mass attached to a horizontal spring oscillates at a frequency of 1.00 Hz . At t =0s, the mass is at x= 4.20 cm and has vx =− 23.0 cm/s . Determine: (a) the period s (b) the angular frequency rad/s (c) the amplitude cm (d) the phase constant rad (e) the maximum speed cm/s (f) the maximum acceleration cm/s2 (g) the total energy J (h) the position at t = 4.2s

Consider two cases involving mass oscillating on a spring. In Case 1 a mass on a...

Consider two cases involving mass oscillating on a spring. In Case 1 a mass on a spring oscillates back and forth. In Case 2, the mass is doubled but the spring and the amplitude of the oscillation is the same as in Case 1. In which case is the maximum potential energy of the mass and spring the biggest? Which case has the largest maximum velocity? Case1, Case 2, or Same

In a spring block system the oscillation frequency is 5.00 Hz. If the amplitude of oscillation...

In a spring block system the oscillation frequency is 5.00 Hz. If the amplitude of oscillation is 0.300 m, determine position, velocity, and acceleration at t = 0.600 s. (10 points)

A 6.5-kg mass is attached to an ideal 750-N/m spring. If the system undergoes simple harmonic...

A 6.5-kg mass is attached to an ideal 750-N/m spring. If the system undergoes simple harmonic motion, what are the frequency, angular frequency, and period of the motion? The frequency, f = The angular frequency, ω = The period, T =   If the total mechanical energy of the system is 72 J, what are the amplitude, maximum speed and maximum acceleration of the motion? The amplitude, A =   The maximum speed, vmax = The maximum acceleration, amax =

At t=0, an 840-g mass at rest on the end of a horizontal spring (k =...

At t=0, an 840-g mass at rest on the end of a horizontal spring (k = 160 N/m ) is struck by a hammer which gives it an initial speed of 2.30 m/s . Determine the period of the motion. Determine the frequency of the motion. Determine the amplitude Determine the maximum acceleration. Determine the total energy. Determine the kinetic energy when x=0.40A where A is the amplitude