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 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...

In a spring gun system, a spring with a spring force constant 370 N/m  , is compressed...

In a spring gun system, a spring with a spring force constant 370 N/m  , is compressed 0.13 m . When fired, 79.1% of the elastic potential energy stored in the spring is eventually converted into kinetic energy of a 5.50×10−2 kg uniform ball that is rolling without slipping at the base of a ramp. The ball continues to roll without slipping up the ramp with 90.3 % of the kinetic energy at the bottom converted into an increase in gravitational...

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)...

The potential energy stored in the compressed spring of a dart gun, with a spring constant...

The potential energy stored in the compressed spring of a dart gun, with a spring constant of 36.00 N/m, is 1.020 J. Find by how much is the spring is compressed. A 0.050 kg dart is fired straight up. Find the vertical distance the dart travels from its position when the spring is compressed to its highest position. The same dart is now fired horizontally from a height of 2.30 m. The dart remains in contact until the spring reaches...

1.The potential energy stored in the compressed spring of a dart gun, with a spring constant...

1.The potential energy stored in the compressed spring of a dart gun, with a spring constant of 62.00 N/m, is 0.980 J. Find by how much is the spring is compressed. 2.A 0.170 kg dart is fired straight up. Find the vertical distance the dart travels from its position when the spring is compressed to its highest position. 3.The same dart is now fired horizontally from a height of 4.30 m. The dart remains in contact until the spring reaches...

When a spring is compressed... The potential energy is a minimum and kinetic energy is at...

When a spring is compressed... The potential energy is a minimum and kinetic energy is at a minimum. The potential energy is at a minimum and kinetic energy is at a maximum. The potential energy is at a maximum and kinetic energy is at a minimum. The potential energy is at a maximum and kinetic energy is at a maximum. A ball mass 6 g is placed in front of a spring compressed by 7.21 cm. Right after launch, the...

A 2.10 kgkg frictionless block is attached to an ideal spring with force constant 317 N/mN/m...

A 2.10 kgkg frictionless block is attached to an ideal spring with force constant 317 N/mN/m . Initially the block has velocity -4.00 m/sm/s and displacement 0.260 mm . A.Find the amplitude of the motion. B. Find the maximum acceleration of the block. C. Find the maximum force the spring exerts on the block.

A ball of mass 0.40 kg is fired with velocity 200 m/s into the barrel of...

A ball of mass 0.40 kg is fired with velocity 200 m/s into the barrel of a spring gun of mass 1.5 kg initially at rest on a frictionless surface. The ball sticks in the barrel at the point of maximum compression of the spring. No energy is lost to friction. What fraction of the ball's initial kinetic energy is stored in the spring?

A Red Rider bb gun uses the energy in a compressed spring to provide the kinetic...

A Red Rider bb gun uses the energy in a compressed spring to provide the kinetic energy for propelling a small pellet of mass 0.21 grams. By cocking the lever attached to the stock of the rifle, the spring (k = 2000 N/m) is compressed 9 cm from its equilibrium point. What is the potential energy energy stored in the compressed spring? A: 2.5887 B: 3.4429 C: 4.5791 D: 6.0902 E: 8.1000 J A: 4.9679 B: 5.6137 C: 6.3435 D:...

A 195-g block is pressed against a spring of force constant 1.30 kN/m until the block...

A 195-g block is pressed against a spring of force constant 1.30 kN/m until the block compresses the spring 10.0 cm. The spring rests at the bottom of a ramp inclined at 60.0° to the horizontal. Using energy considerations, determine how far up the incline the block moves from its initial position before it stops under the following conditions. (a) if the ramp exerts no friction force on the block m (b) if the coefficient of kinetic friction is 0.366...