A spring is stretched 3.00 cm by a force of 12.0 N. How far would the...

A spring of negligble mass has force constant k = 1600 N/m. a) How far must...

A spring of negligble mass has force constant k = 1600 N/m. a) How far must the spring be compressed for 3.2 J of potential energy to be stored in it? b) You place the spring vetically with one end on the floor. You then drop a 1.2 kg book onto it from a height of 0.80 m above the top of the spring. Find the maximum distance the spring will be compressed. I looked at the textbook solution for...

A spring with a spring constant of 3050 N/m is initially stretched until the elastic potential...

A spring with a spring constant of 3050 N/m is initially stretched until the elastic potential energy is 1.72 J. (U = 0. for no stretch.) What is the change in the elastic potential energy if the initial stretch is changed to a stretch of 2.0 cm? What is the change in the elastic potential energy if the initial stretch is changed to a compression of 2.0 cm? What is the change in the elastic potential energy if the initial...

If compressing a spring 3.0 cm from equilibrium stores 3.0 joules of energy, how far from...

If compressing a spring 3.0 cm from equilibrium stores 3.0 joules of energy, how far from equilibrium would you have to compress the same spring to store a total of 12.0 joules of energy? Answer in centimeters

13.5 A spring with a spring constant of 450 N/m is stretched 20 cm from the...

13.5 A spring with a spring constant of 450 N/m is stretched 20 cm from the equilibrium position. a) What is the magnitude of the spring force at x = 20 cm? b) If a 5 kg mass is attached to the spring, what will the maximum acceleration be if the spring is released from the x = 20 cm stretched position? c) Will the acceleration be the same as the spring passes the x = 10 cm position? If...

A spring has a natural length of 50 cm. If a 60-N force is required to...

A spring has a natural length of 50 cm. If a 60-N force is required to keep it stretched to a length of 72 cm, how much work is required to stretch it from 50 cm to 65 cm?

The potential energy stored in a spring is 1/2kx2, where k is the force constant of...

The potential energy stored in a spring is 1/2kx2, where k is the force constant of the spring and x is the distance the spring is stretched from equilibrium. Suppose a spring with force constant 300 N/m is stretched by 10.0 cm, placed in 40 g of water in an adiabatic container, and released. The mass of the spring is 20 g, and its specific heat capacity is 0.30 cal/(g °C). The initial temperature of the water and the spring...

The potential energy stored in a spring is 1/2kx2, where k is the force constant of...

The potential energy stored in a spring is 1/2kx2, where k is the force constant of the spring and x is the distance the spring is stretched from equilibrium. Suppose a spring with force constant 150 N/m is stretched by 10.0 cm, placed in 10 g of water in an adiabatic container, and released. The mass of the spring is 20 g, and its specific heat capacity is 0.30 cal/(g °C). The initial temperature of the water and the spring...

A certain spring has a spring constant k1 = 420 N/m as the spring is stretched...

A certain spring has a spring constant k1 = 420 N/m as the spring is stretched from x = 0 to x1 = 34 cm. The spring constant then changes to k2 = 330 N/m as the spring is stretched to x2 = 79 cm. From x2 = 79 cm to x3 = 97 cm the spring force is constant at F3 = 120 N. (a) Use the area under the curve to calculate the work, in joules, necessary to...

A spring has a natural length of 14 cm. If a 30-N force is required to...

A spring has a natural length of 14 cm. If a 30-N force is required to keep it stretched to a length of 26 cm, how much work W is required to stretch it from 14 cm to 20 cm? (Round your answer to two decimal places.)

A 50.0 gram mass connected to a spring with a spring constant of 35 N m...

A 50.0 gram mass connected to a spring with a spring constant of 35 N m oscillates on a horizontal, frictionless surface with an amplitude of 4.00 cm. (i) What is the total mechanical energy of the system? (ii) What is the speed of the mass when the displacement is 1.00 cm? (iii) What is the potential energy when the displacement is 3.00 cm? (iv) What is the kinetic energy when the displacement is 3.00 cm?