I push a 5 kg block, initially at rest, on a flat, frictionless surface 3 m...

A block is given a very brief push up a 36° frictionless incline to give it...

A block is given a very brief push up a 36° frictionless incline to give it an initial speed of 15.8 m/s. How far along the surface of the plane does the block slide before coming to rest?

A block of mass 2.51 kg is moving at 6.6 m/s on a flat frictionless plane....

A block of mass 2.51 kg is moving at 6.6 m/s on a flat frictionless plane. It then starts to slide up an incline plane set at an angle of 35 degrees. What is the length ( the length of the incline) it slides before it stops ( in meters )?

A 2.0 kg block slides on a frictionless horizontal surface with an initial speed of 15.0...

A 2.0 kg block slides on a frictionless horizontal surface with an initial speed of 15.0 meters per second. The block then encounters a 35.0o incline, where the coefficients of static and kinetic friction are 0.20 and 0.10 respectively. Determine how far up the incline the block will slide, and if the block will slide back down or remain stationary on the incline (use a force analysis to determine this)

A 2.0 kg block slides on a frictionless horizontal surface with an initial speed of 15.0...

A 2.0 kg block slides on a frictionless horizontal surface with an initial speed of 15.0 meters per second. The block then encounters a 35.0o incline, where the coefficients of static and kinetic friction are 0.20 and 0.10 respectively. Determine how far up the incline the block will slide, and if the block will slide back down or remain stationary on the incline (use a force analysis to determine this).

Name:__________________________________________Section____ A block of mass ? = 12.0 kg is released from rest on an incline...

Name:__________________________________________Section____ A block of mass ? = 12.0 kg is released from rest on an incline angled at θ = 30 degrees. The block slides down and incline of length ? = 1.40 m along the incline, which has a coefficient of kinetic friction between the incline and the block of ?? = 0.180. The block then slides on a horizontal frictionless surface until it encounters a spring with a spring constant of ? = 205 N/m. Refer to the...

A 6.0 kg block is sliding on a leve, frictionless surface at a speed of 5.0...

A 6.0 kg block is sliding on a leve, frictionless surface at a speed of 5.0 m/s when it undergoes a head-on, perfectly inelastic collision with a 4.0 kg block that is initially at rest on the top of a frictionless, 2.0 m high inclined plane. A) What is the speed of the combined blocks when they reach the bottom of the incline? B) If the ground at the bottom of the incline is level, and if the coefficient of...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient of friction μ1 = 0.39, at an initial height h = 0.53 m above the ground. The plane is inclined at an angle θ = 44°. The block is then compressed against a spring a distance Δx = 0.13 m from its equilibrium point (the spring has a spring constant of k1 = 35 N/m) and released. At the bottom of the inclined plane...

A 1.40 kg block slides with a speed of 0.950 m/s on a frictionless horizontal surface...

A 1.40 kg block slides with a speed of 0.950 m/s on a frictionless horizontal surface until it encounters a spring with a force constant of 734 N/m. The block comes to rest after compressing the spring 4.15 cm. Find the spring potential, U, the kinetic energy of the block, K, and the total mechanical energy of the system, E, for compressions of (a) 0 cm, (b) 1.00 cm, (c) 2.00 cm, (d) 3.00 cm, (e) 4.00 cm

1) A block is released from point A and it slides down an incline (theta =...

1) A block is released from point A and it slides down an incline (theta = 30 degrees) where the coefficient of kinetic friction is 0.3. It goes 5m and hits a spring with a spring constant k = 500 N/m. While it is being acted upon by the spring, assume it is on a frictionless surface. a) How far is the spring compressed? b) How far does the block go up the plane on the rebound from the spring?...

A block of mass 13.0 kg slides from rest down a frictionless 39.0° incline and is...

A block of mass 13.0 kg slides from rest down a frictionless 39.0° incline and is stopped by a strong spring with k = 2.70 ✕ 104 N/m. The block slides 3.00 m from the point of release to the point where it comes to rest against the spring. When the block comes to rest, how far has the spring been compressed? m