A ball of a mass m starting from rest falls a vertical distance h=65.0 cm before...

A ball is attached to a vertical spring. The ball is initially supported at a height...

A ball is attached to a vertical spring. The ball is initially supported at a height y so that the spring is neither stretched nor compressed. The ball is then released from rest and it falls to a height y - h before moving upward. Consider the following quantities: translational kinetic energy, gravitational potential energy, elastic potential energy. When the ball was at a height y - (h/2), which of the listed quantities has values other than zero joules? Please...

A ball of mass m = 1.60 kg is released from rest at a height h...

A ball of mass m = 1.60 kg is released from rest at a height h = 77.0 cm above a light vertical spring of force constant k as in Figure [a] shown below. The ball strikes the top of the spring and compresses it a distance d = 8.10 cm as in Figure [b] shown below. Neglecting any energy losses during the collision, find the following. (a) Find the speed of the ball just as it touches the spring....

A ball with mass m = 50.0 g, is sitting on a vertical spring whose force...

A ball with mass m = 50.0 g, is sitting on a vertical spring whose force constant is 120.0 N/m. The initial position of the spring is at y = 0.00 m. The spring is compressed downward a distance x = 0.200 m. From the compressed position, how high will the ball bearing rise? How high is does the ball bearing rise above the position at y = 0.00 m? What is the kinetic energy of the ball at the...

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-loaded toy gun is used to shoot a ball of mass m=1.50kg straight up in...

A spring-loaded toy gun is used to shoot a ball of mass m=1.50kg straight up in the air. The spring has spring constant k=667 N/m. If the spring is compressed a distance of 19.0 cm from its equilibrium position y=0 and then released, the ball reaches a maximum height hmax (measured from the equilibrium position of the spring). There is no air resistance, and the ball never touches the inside of the gun. Assume that all movement occurs in a...

A marble of mass m = 20.0 g is dropped from height h = 20 cm...

A marble of mass m = 20.0 g is dropped from height h = 20 cm onto a spring as shown in the figure. If the spring is compressed by 4cm a) Find the spring constant (k) of the spring. b) Find velocity of the marble when it hits (reaches) the spring.

A solid ball of mass 5.50 kg and radius 2.7 cm compresses a spring of constant...

A solid ball of mass 5.50 kg and radius 2.7 cm compresses a spring of constant 1100 N/m (point A) (Ball is at rest). The ball then rolls along a frictionless surface and goes up an incline (starting at point B) to the top where is stops (points C). At point B the ball is moving with a linear speed of 2.40 m/s. Find distance the spring is compressed. (point A) Find the max height for the ball to stop...

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...

a 0.2 kg mass is pushed down against a vertical spring with a spring constant k...

a 0.2 kg mass is pushed down against a vertical spring with a spring constant k = 1000 N/m. when the spring is compressed by 10 cm, the object is let go. what vertical height above the release point will the obhect reach? give answer in meters

A ball of mass m falls from rest from a height of y1, collides with the...

A ball of mass m falls from rest from a height of y1, collides with the ground and bounces back up to y2. The collision time with the ground is ?t. A) Determine the momentum of the ball immediately before the collision with the ground. B) Determine the momentum of the ball immediately after the collision with the ground. C) Determine the average force exerted on the ball during the collision. Now let: m = 0.080 kg y1 = 3.0...