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A 100kg block starts from rest and slides 4m down a frictionless 30°. Its motion is...
Part B: (Mechanical Energy and Conservation of Energy Problem B1: (conservation of mechanical energy) KS block...
Part B: (Mechanical Energy and Conservation of Energy Problem B1: (conservation of mechanical energy) KS block starts from rest and slides 4m down a frictionless 30°. Its motion is halted by a spring (k=5N/m). ww 1) What is the speed of the block just as it reaches the spring? 2) Find the maximum compression of the spring
A 3.90 kg block starts from rest and slides down a frictionless incline, dropping a vertical...
A 3.90 kg block starts from rest and slides down a frictionless incline, dropping a vertical distance of 3.20 m, before compressing a spring of force constant 2.28 104 N/m. Find the maximum compression of the spring.
8. A 30.0-kg block slides down a frictionless incline. If the block starts from rest and...
8. A 30.0-kg block slides down a frictionless incline. If the block starts from rest and has a speed of 3.00-m/s at the bottom, at what vertical distance did the block start its descent Answer: 0.459 m 9. It is found that a force of 18-N is required to stretch a spring by 0.300 meters from its natural length. (a) What is the spring constant of the spring? (b) How much energy is stored in the spring when it is...
A block of mass m = 850 g is released from rest and slides down a...
A block of mass m = 850 g is released from rest and slides down a frictionless track of height 32.7 cm. At the bottom of the track, the block slides freely along a horizontal plane until it hits a spring with a constant of k = 50 N/m. What is the maximum compression of the spring that occurs?
A box slides from rest down a frictionless ramp inclined at 38.0° with respect to the...
A box slides from rest down a frictionless ramp inclined at 38.0° with respect to the horizontal and is stopped at the bottom of the ramp by a spring with a spring constant of k = 2.00 x 104 N/m. If the box has a mass of 12.0 kg and slides 3.00 m from the point of release to the point where it comes to rest against the spring, determine the compression of the spring when the box comes to...
A block of mass 0.9 kg starts from rest and slides down a curved frictionless slide....
A block of mass 0.9 kg starts from rest and slides down a curved frictionless slide. Determine the change in the block's height when its speed has reached 4.1 m/s.
a block with a mass of 2.5 kg starts from rest at the top of the...
a block with a mass of 2.5 kg starts from rest at the top of the
apparatus shown below. it then slides without friction down the
incline, and collides with a spring attached to a wall. The spring
has a spring constant of K=120N/m. Using the principle of energy
conservation,
a. find the initial gravitational potential energy of the block
at point A
b. find the kinetic energy of the block at point B
c. what is the velocity of...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle θ(0◦ < θ < 90◦) where it runs into a spring of spring constant k. When the block momentarily stops, it has compressed the spring by distance x. Find expressions for (a) the distance the block slides down the incline from when it is released to when it momentarily stops (b) the distance between the point of the first block-spring contact and the point...
3. A 4.00kg block (initially at rest) slides down a frictionless ramp which is inclined at...
3. A 4.00kg block (initially at rest) slides down a frictionless ramp which is inclined at 42° above horizontal. After sliding for 1.20m, the block hits a spring with spring constant k = 110 a) Calculate the speed of the block just before it hits the spring. b) Calculate maximum distance the spring compresses.
A block of mass 11.0 kg slides from rest down a frictionless 33.0° incline and is...
A block of mass 11.0 kg slides from rest down a frictionless 33.0° incline and is stopped by a strong spring with k = 2.80 ✕ 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?
Part B: (Mechanical Energy and Conservation of Energy Problem B1: (conservation of mechanical energy) KS block starts from rest and slides 4m down a frictionless 30°. Its motion is halted by a spring (k=5N/m). ww 1) What is the speed of the block just as it reaches the spring? 2) Find the maximum compression of the spring
8. A 30.0-kg block slides down a frictionless incline. If the block starts from rest and has a speed of 3.00-m/s at the bottom, at what vertical distance did the block start its descent Answer: 0.459 m 9. It is found that a force of 18-N is required to stretch a spring by 0.300 meters from its natural length. (a) What is the spring constant of the spring? (b) How much energy is stored in the spring when it is...
A box slides from rest down a frictionless ramp inclined at 38.0° with respect to the horizontal and is stopped at the bottom of the ramp by a spring with a spring constant of k = 2.00 x 104 N/m. If the box has a mass of 12.0 kg and slides 3.00 m from the point of release to the point where it comes to rest against the spring, determine the compression of the spring when the box comes to...
a block with a mass of 2.5 kg starts from rest at the top of the
apparatus shown below. it then slides without friction down the
incline, and collides with a spring attached to a wall. The spring
has a spring constant of K=120N/m. Using the principle of energy
conservation,
a. find the initial gravitational potential energy of the block
at point A
b. find the kinetic energy of the block at point B
c. what is the velocity of...
3. A 4.00kg block (initially at rest) slides down a frictionless ramp which is inclined at 42° above horizontal. After sliding for 1.20m, the block hits a spring with spring constant k = 110 a) Calculate the speed of the block just before it hits the spring. b) Calculate maximum distance the spring compresses.
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