block slides with the initial velocity of 3 m/s along a frictionless surface with a constant...

A 1-kg block slides along frictionless surface XY with a velocity of v = 10 m/s....

A 1-kg block slides along frictionless surface XY with a velocity of v = 10 m/s. It then moves along a surface YZ with length 10 m, and uk = 0.2 until hitting an undeformed spring whose k = 1000 N/m. What is the block’s velocity just before it hits the spring? What will be the maximum compression of the spring? After leaving the spring, will the block reach surface XY? If yes, compute for the velocity of the block...

A 6.4kg block slides (with v0=7.36 m/s) along a curved frictionless path to a level surface...

A 6.4kg block slides (with v0=7.36 m/s) along a curved frictionless path to a level surface that is 2.4 m higher than it began. Stop onver a distance of 1.5m. how much thermal energy does the block-path system gain?

A.Your mass m=11 kg block slides down a frictionless ramp having angle theta=0.51 radians to the...

A.Your mass m=11 kg block slides down a frictionless ramp having angle theta=0.51 radians to the horizontal. After sliding down the ramp a distance L=16 m the block encounters a spring of spring constant k=551 N/m. The spring is parallel to the ramp. Use g=9.74 m/s/s for the acceleration of gravity. Calculate the maximum compression of the spring, in meters. Include labeled diagrams showing the initial and final configurations, and a discussion of the solution method based on energy conservation....

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...

The horizontal surface on which the block slides is frictionless. The speed vi of the block...

The horizontal surface on which the block slides is frictionless. The speed vi of the block of mass m= 2.0 kg before it touches the spring is 10 m/s. After the spring is compressed by 0.20 m, the block starts to move back to the right. What is the velocity vf of the block in m/s when the spring is compressed by 0.15m ?

A box of mass m slides with an initial velocity of 3 m/s down a 1.2...

A box of mass m slides with an initial velocity of 3 m/s down a 1.2 meter long ramp which is inclined 20˝ from the horizontal. The coefficient of kinetic friction between the ramp and box is .45. a) Determine the direction and magnitude of the acceleration of the box as it slides down the incline - is it slowing down or speeding up? b) How much time does it take for the box to get to the end of...

3. You throw a ball, m= 2kg, with an initial velocity of 25 m/s at an...

3. You throw a ball, m= 2kg, with an initial velocity of 25 m/s at an angle of 50 degrees from the top of a 30m cliff. a. Using energy considerations, what is the maximum height of the ball? b. What is the magnitude of the velocity when it hits the ground? c. Now, using KINEMATICS, what is the magnitude of the velocity when it hits the ground? 4. You compress a spring with k = 3000 N/m a distance...

Mass A (8.5 kg) slides across a frictionless surface with a velocity of 6 m/s in...

Mass A (8.5 kg) slides across a frictionless surface with a velocity of 6 m/s in the positive direction. Mass B (8.5 kg) slides across the same surface in the opposite direction with a velocity of ?12 m/s. The two objects collide and stick together after the collision. Calculate the center-of-mass velocity (in m/s) of the system both before and after the collision. (Indicate the direction with the sign of your answer.)

A 2.00 kg block slides on a frictionless, horizontal surface with a speed of 5.10 m/s,...

A 2.00 kg block slides on a frictionless, horizontal surface with a speed of 5.10 m/s, until colliding head-on with, and sticking to, a 1.00 kg block at rest. A) Find the speed of the combination after the collision. B) The two blocks continue to slide together until coming in contact with a horizontal spring and eventually brought to rest. If the blocks compress the spring 10.0 cm, find the spring constant of the spring. C) How much work did...

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