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...

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...

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 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 spring has a natural length of 30 cm. If a 20-N force is required to...

A spring has a natural length of 30 cm. If a 20-N force is required to keep it stretched to a length of 46 cm, how much work W is required to stretch it from 30 cm to 38 cm? (Round your answer to two decimal places.) W =