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 20.0� frictionless incline to give it...

A block is given a very brief push up a 20.0� frictionless incline to give it an initial speed of 12.0 m/s. (a) How far along the surface of the plane does the block slide before coming to rest? (b) How much time does it take to return to its starting position?

A block is given an initial push at the bottom of a 22 degree inclined plane....

A block is given an initial push at the bottom of a 22 degree inclined plane. If the coefficient of kinetic friction between the block and plane is 0.32, and the initial speed of the block at the bottom of the incline is 4.00 m/s, how far up the incline does the block travel before coming to rest?

A small block travels up a frictionless incline that is at an angle of 30.0° above...

A small block travels up a frictionless incline that is at an angle of 30.0° above the horizontal. The block has speed 4.15 m/s at the bottom of the incline. Assume g = 9.80 m/s2. How far up the incline (measured parallel to the surface of the incline) does the block travel before it starts to slide back down?

A small block travels up a frictionless incline that is at an angle of 30.0° above...

A small block travels up a frictionless incline that is at an angle of 30.0° above the horizontal. The block has speed 1.20 m/s at the bottom of the incline. Assume g = 9.80 m/s2. How far up the incline (measured parallel to the surface of the incline) does the block travel before it starts to slide back down?

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

I push a 5 kg block, initially at rest, on a flat, frictionless surface 3 m with a force of 10 N. If I let go of the block and it encounters a frictionless incline plane of 30 degrees, how far up the plane will the block go?

A block with mass m = 14.6 kg slides down an inclined plane of slope angle...

A block with mass m = 14.6 kg slides down an inclined plane of slope angle 15.8 ° with a constant velocity. It is then projected up the same plane with an initial speed 4.35 m/s. How far up the incline will the block move before coming to rest?

A 150 gram block is pushed up a ramp set at a 20 degree angle with...

A 150 gram block is pushed up a ramp set at a 20 degree angle with respect to the horizontal. Its initial speed is 1.24 m/s as a result of the push, and it travels 14.0 cm up the incline before coming to rest. How far would it travel down the ramp before coming to rest if the push was in the opposite direction but the initial speed was the same?

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 with a mass m1=2.3kg is sliding along a frictionless surface with a velocity of...

A block with a mass m1=2.3kg is sliding along a frictionless surface with a velocity of 7.3m/s. It collides inelastically with mass m2=1.7kg and the two blocks stick together. They then slide down a frictionless incline with a Height 95cm. How fast are they going when they reach the bottom of the incline? Part B. If the coefficient of kinetic friction, uk is 0.15 along the surface at the bottom of the ramp. What distance will the blocks side before...

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)