A .1800 kg block on a frictionless ( u=0) table is attached to one end of...

A 0.2000-kg block on a frictionless (? = 0) table is attached to one end of...

A 0.2000-kg block on a frictionless (? = 0) table is attached to one end of a spring with Hooke's constant k = 30.0 N/m. The other end of the spring is firmly attached to a wall. A 0.0250-kg ball is thrown horizontally toward the block at 2.00 m/s. In the case of a perfectly elastic collision, what will be the speed of the ball immediately after the collision? 1.56 m/s What will be the maximum compression of the spring...

A 140 g block on a frictionless table is firmly attached to one end of a...

A 140 g block on a frictionless table is firmly attached to one end of a spring with k = 24 N/m . The other end of the spring is anchored to the wall. A 26 g ball is thrown horizontally toward the block with a speed of 6.0 m/s . If the collision is perfectly elastic, what is the ball's speed immediately after the collision? What is the maximum compression of the spring? Repeat part A for the case...

A 0.0392-kg bullet is fired horizontally into a 2.04-kg wooden block attached to one end of...

A 0.0392-kg bullet is fired horizontally into a 2.04-kg wooden block attached to one end of a massless, horizontal spring (k = 838 N/m). The other end of the spring is fixed in place, and the spring is unstrained initially. The block rests on a horizontal, frictionless surface. The bullet strikes the block perpendicularly and quickly comes to a halt within it. As a result of this completely inelastic collision, the spring is compressed along its axis and causes the...

A block of mass M = 5.80 kg, at rest on a horizontal frictionless table, is...

A block of mass M = 5.80 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 6250 N/m. A bullet of mass m = 8.30 g and velocity of magnitude 570 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible until the bullet is embedded, determine (a) the speed of the block immediately after the collision and (b) the...

A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is...

A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 5860 N/m. A bullet of mass m = 9.20 g and velocity ModifyingAbove v With right-arrow of magnitude 660 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible until the bullet is embedded, determine (a) the speed of the block immediately after the...

A 15.3-kg block rests on a horizontal table and is attached to one end of a...

A 15.3-kg block rests on a horizontal table and is attached to one end of a massless, horizontal spring. By pulling horizontally on the other end of the spring, someone causes the block to accelerate uniformly and reach a speed of 7.81 m/s in 1.75 s. In the process, the spring is stretched by 0.171 m. The block is then pulled at a constant speed of 7.81 m/s, during which time the spring is stretched by only 0.0600 m. Find...

A 15.4-kg block rests on a horizontal table and is attached to one end of a...

A 15.4-kg block rests on a horizontal table and is attached to one end of a massless, horizontal spring. By pulling horizontally on the other end of the spring, someone causes the block to accelerate uniformly and reach a speed of 6.34 m/s in 0.980 s. In the process, the spring is stretched by 0.188 m. The block is then pulled at a constant speed of 6.34 m/s, during which time the spring is stretched by only 0.0836 m. Find...

ANSWER ASAP PLEASEEEE A block with a mass of 0.85 kg rests on a horizontal, frictionless...

ANSWER ASAP PLEASEEEE A block with a mass of 0.85 kg rests on a horizontal, frictionless surface and is attached to an unstretched spring of length 20 cm. The spring constant of the spring is 9.5 x 103 N/m. The spring is attached to a wall at its other end. A 7.50-grams, 9-mm-diameter bullet is fired into the block at a speed of 350 m/s and embeds itself in the block. The system now starts oscillating. A. Treat the collision...

A 4.37 kg block free to move on a horizontal, frictionless surface is attached to one...

A 4.37 kg block free to move on a horizontal, frictionless surface is attached to one end of a light horizontal spring. The other end of the spring is fixed. The spring is compressed 0.117 m from equilibrium and is then released. The speed of the block is 1.01 m/s when it passes the equilibrium position of the spring. The same experiment is now repeated with the frictionless surface replaced by a surface for which uk = 0.345. Determine the...

A 0.400-kg block is attached to a horizontal spring that is at its equilibrium length, and...

A 0.400-kg block is attached to a horizontal spring that is at its equilibrium length, and whose force constant is 24.0 N/m . The block rests on a frictionless surface. A 6.00×10−2-kg wad of putty is thrown horizontally at the block, hitting it with a speed of 2.20 m/s and sticking. Part A How far does the putty-block system compress the spring? in cm