An air – track cart attached to a spring completes one oscillation every 2.4 sec. At...

A cart of mass m = 1.2 kg is placed on a horizontal track. The cart...

A cart of mass m = 1.2 kg is placed on a horizontal track. The cart rolls with very little friction, and is attached to the left end of the track by a spring with negligible mass, spring constant k = 20.0 N/m, and un-stretched length 25.0 cm. (A) The cart is moved 7.5 cm to the left of its equilibrium position, and is then released from rest. Draw a sketch of the position x along the track of the...

A 2.9-kg cart is attached to a horizontal spring for which the spring constant is 60...

A 2.9-kg cart is attached to a horizontal spring for which the spring constant is 60 N/m . The system is set in motion when the cart is 0.27 m from its equilibrium position, and the initial velocity is 1.8 m/s directed away from the equilibrium position. What is the amplitude of the oscillation? What is the speed of the cart at its equilibrium position?

A small cart of mass 0.8 kg is attached to one end of a massless, horizontal...

A small cart of mass 0.8 kg is attached to one end of a massless, horizontal spring as shown in the figure. The spring constant is 600 N/m. The spring is stretched by 0.05 m and the cart is released from rest. The cart then oscillates back and forth undergoing simple harmonic motion. Friction and air resistance are negligible. a) (5 pts) Find the angular frequency ω of the motion. b) (5 pts) How long does it take for the...

A mass of 0.12 kg is attached to a spring and set into oscillation on a...

A mass of 0.12 kg is attached to a spring and set into oscillation on a horizontal frictionless surface. The simple harmonic motion of the mass is described by x(t) = (0.42 m)cos[(14 rad/s)t]. Determine the following. (a) amplitude of oscillation for the oscillating mass (b) force constant for the spring (c) position of the mass after it has been oscillating for one half a period (d) position of the mass one-third of a period after it has been released...

A 250 g cart is on a frictionless horizontal track. The cart is attached to a...

A 250 g cart is on a frictionless horizontal track. The cart is attached to a spring of spring constant 125 N/m whose free end is fastened to the end of the track. A 100 g soft iron mass is sitting on and moving with the cart so that the total mass is 350 g. The cart and mass are given a 5.00 cm displacement from their equilibrium position and released. Determine the (A) (i) equation of motion for the...

A 0.250 kg air-track glider is attached to each end of the track by two coil...

A 0.250 kg air-track glider is attached to each end of the track by two coil springs. It takes a horizontal force of 0.900 N to displace the glider to a new equilibrium position, x= 0.090 m. Find the effective spring constant of the system. 1.00×101 N/m The glider is now released from rest at x= 0.090 m. Find the maximum x-acceleration of the glider. 3.60 m/s^2 Find the x-coordinate of the glider at time t= 0.350T, where T is...

Two identical carts on a frictionless air track are attached by a spring. One is suddenly...

Two identical carts on a frictionless air track are attached by a spring. One is suddenly struck a blow that sends it moving away from the other cart. The motion of the carts is seen to be very jerky-first one cart moves, then stops as the other cart moves and stops in its turn. Explain the motion in a qualitative way.

Two identical carts on a frictionless air track are attached by a spring. One is suddenly...

Two identical carts on a frictionless air track are attached by a spring. One is suddenly struck a blow that sends it moving away from the other cart. The motion of the carts is seen to be very jerky-first one cart moves, then stops as the other cart moves and stops in its turn. Explain the motion in a qualitative way.

A 0.85-kg air cart is attached to a spring and allowed to oscillate. If the displacement...

A 0.85-kg air cart is attached to a spring and allowed to oscillate. If the displacement of the air cart from equilibrium is x=(10.0cm)cos[(2.00s−1)t+π], find the maximum kinetic energy of the cart. Find the maximum force exerted on it by the spring.

An air-track glider(m=500grams) is attached to a spring with a force constant of 79N/m. The glider...

An air-track glider(m=500grams) is attached to a spring with a force constant of 79N/m. The glider is pushed 10cm to the left of zero and released from rest (@ t=0, v=0 and x=-10cm). A)What is the postion equation as a function of time for the glider?(can you show each step, specifically for finding the phase constant) B)What is the maximum speed of glider?