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

A 240 g mass attached to a horizontal spring oscillates at a frequency of 5.20 Hz...

A 240 g mass attached to a horizontal spring oscillates at a frequency of 5.20 Hz . At t =0s, the mass is at x= 6.80 cm and has vx =− 27.0 cm/s . Determine: The period. Enter your answer numerically to five significant figures. The angular frequency. Enter your answer numerically to five significant figures. The amplitude. Enter your answer numerically to five significant figures. The phase constant. Enter your answer numerically to four significant figures.

A 400 gram mass is attached to a horizontal spring with a frequency of 2 Hz....

A 400 gram mass is attached to a horizontal spring with a frequency of 2 Hz. The mass has a speed of 40 cm/s and is located at x=5 cm.. A) find the period of motion B) find the amplitude of motion C) find the maximum speed of the mass D) find the total energy of the mass

A 280-g object attached to a spring oscillates on a frictionless horizontal table with a frequency...

A 280-g object attached to a spring oscillates on a frictionless horizontal table with a frequency of 4.00 Hz and an amplitude of 25.0 cm. 1) Calculate the maximum potential energy of the system.(Express your answer to three significant figures.) 2) Calculate the displacement of the object when the potential energy is one-half of the maximum.(Express your answer to three significant figures.) 3) Calculate the potential energy when the displacement is 10.0 cm.(Express your answer to three significant figures.)

A mass of 220 g oscillates on a horizontal frictionless surface at a frequency of 2.7...

A mass of 220 g oscillates on a horizontal frictionless surface at a frequency of 2.7 Hz and with amplitude of 4.6 cm . What is the effective spring constant for this motion? How much energy is involved in this motion?

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...

A 0.500-kg mass attached to an ideal massless spring with a spring constant of 12.5 N/m...

A 0.500-kg mass attached to an ideal massless spring with a spring constant of 12.5 N/m oscillates on a horizontal, frictionless surface. At time t = 0.00 s, the mass is located at x = –2.00 cm and is traveling in the positive x-direction with a speed of 8.00 cm/s. PART A: Find the angular frequency of the oscillations. Express your answer in rad/s. PART B: Determine the amplitude of the oscillations. Express your answer with the appropriate SI units....

A mass attached to a spring oscillates with a period of 1.12·s and an amplitude of...

A mass attached to a spring oscillates with a period of 1.12·s and an amplitude of 40·cm. At time t = 0 the mass is at x = +28·cm and is moving in the positive direction (away from equilibrium). What is the phase constant? (degrees) Where is it at time t = 4.5·s? (cm)

At t = 0, a 755 g mass at rest on the end of a horizontal...

At t = 0, a 755 g mass at rest on the end of a horizontal spring (k = 120 N/m) is struck by a hammer, which gives it an initial speed of 2.76 m/s. (a) Determine the period of the motion. s Determine the frequency of the motion. Hz (b) Determine the amplitude. m (c) Determine the maximum acceleration. m/s2 (d) Determine the position as a function of time. (  m ) sin[ (  rad/s)t ] (e) Determine the total energy....

An air-track glider attached to a spring oscillates with a period of 1.50 s . At...

An air-track glider attached to a spring oscillates with a period of 1.50 s . At t=0s the glider is 5.50 cm left of the equilibrium position and moving to the right at 39.9 cm/s . Part A:What is the phase constant? Part B: B. What are the phases at t = .5, 1.0, and 1.5 s? Answer in rad.

An object of mass m = 0.25 kg has a horizontal spring attached to its left...

An object of mass m = 0.25 kg has a horizontal spring attached to its left side, and slides along a frictionless surface. The spring constant is κ = 0.4 N m . At t = 0 s, the object is displaced 0.1m to the right of its equilibrium position. Its initial velocity is 0.4 m s , toward the right. a) Calculate the period T of the motion. b) Calculate the angular frequency ω. c) Calculate the frequency ν....