The initial compression of the spring is 0.1 m, the spring constant is k=350 N/m and...

A 350-g block is dropped onto a vertical spring with spring constant k =110.0 N/m. The...

A 350-g block is dropped onto a vertical spring with spring constant k =110.0 N/m. The block becomes attached to the spring, and the spring compresses 50.6 cm before momentarily stopping. The speed just before the block hits the spring is 8.4 m/s. The work done by the spring force is -14.1J. The work done by weight is 1.74 J. If the speed at impact is doubled, what is the maximum compression of the spring

In a spring gun system, a spring with a spring force constant 350 N/mN/m  , is compressed...

In a spring gun system, a spring with a spring force constant 350 N/mN/m  , is compressed 0.11 mm . When fired, 81.0 %% of the elastic potential energy stored in the spring is eventually converted into kinetic energy of a 6.40×10−2 kgkg uniform ball that is rolling without slipping at the base of a ramp. The ball continues to roll without slipping up the ramp with 90.0 %% of the kinetic energy at the bottom converted into an increase in...

3. Consider a mass m attached to a horizontal spring with spring constant k.  Suppose the mass...

3. Consider a mass m attached to a horizontal spring with spring constant k.  Suppose the mass is pulled a distance A from the equilibrium position.   a. Find the total energy at the amplitude in terms of k and A b. Using conservation of energy, find an expression for the maximum speed at the equilibrium position in terms of k, A and m

A spring with no mass whose length= L and a spring constant is k stands vertically...

A spring with no mass whose length= L and a spring constant is k stands vertically on the ground. A mass m is dropped from a height h (h>L) so that it lands on top of the spring. Express your answers in terms of the given variables and the gravitational acceleration g. (a) What is the speed of the mass when it just reaches the spring? (b) What is the maximum compression (change in length) of the spring?

A ball of mass m is resting on top of a vertical spring, with spring constant...

A ball of mass m is resting on top of a vertical spring, with spring constant k and equilibrium length L. The spring is secured to the ground. a) Draw a free-body diagram for the ball. b) The ball rests at a height that is not equal to L. Find the equilibrium height of the ball. c) Find an expression for the compression required to launch the ball to a height h from the ground. Write this compression in terms...

In a ballistic pendulum, a spring gun, with a spring constant k, is aimed horizontally releasing...

In a ballistic pendulum, a spring gun, with a spring constant k, is aimed horizontally releasing a spring that has been compressed a distance x. A ball of mass m is fired at the bob of a pendulum. The bob (cup) has a mass M, and is suspended by a rod of negligible mass. After the collision, the ball stays inside the cup of the bob and swings through an arc, eventually gaining a height h. (a) Find the height...

A massless spring of spring constant k = 4872 N/m is connected to a mass m...

A massless spring of spring constant k = 4872 N/m is connected to a mass m = 210 kg at rest on a horizontal, frictionless surface. Part (a) The mass is displaced from equilibrium by A = 0.73 m along the spring’s axis. How much potential energy, in joules, is stored in the spring as a result? Part (b) When the mass is released from rest at the displacement A= 0.73 m, how much time, in seconds, is required for...

A vertical elastic spring with a spring constant of 619 N/m is compressed 25 cm. A...

A vertical elastic spring with a spring constant of 619 N/m is compressed 25 cm. A ball of mass 320 grams is placed at rest on top of the compressed spring. Take that the height of the ball at this position is zero. The spring is then released so the ball is shot straight up. a)Find the total initial energy of the system consisting of the ball and the spring. b)Find the total potential (i.e before the ball is shot)...

A spring of negligible mass has force constant k = 1800 N/m . You place the...

A spring of negligible mass has force constant k = 1800 N/m . You place the spring vertically with one end on the floor. You then drop a book of mass 1.40 kg onto it from a height of 0.900 m above the top of the spring. Find the maximum distance the spring will be compressed. Take the free fall acceleration to be 9.80 m/s2 . Express your answer using two significant figures.

In a spring gun system, a spring with a spring force constant 430 N/mN/m  , is compressed...

In a spring gun system, a spring with a spring force constant 430 N/mN/m  , is compressed 0.11 mm . When fired, 80.7 %% of the elastic potential energy stored in the spring is eventually converted into kinetic energy of a 6.50×10−2 kgkg uniform ball that is rolling without slipping at the base of a ramp. The ball continues to roll without slipping up the ramp with 89.6 %% of the kinetic energy at the bottom converted into an increase in...