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A mass of 2 kilograms is placed on a horizontal frictionless surface against an uncompressed spring...
A mass of 1.51 kilograms is placed on a horizontal frictionless surface against an uncompressed spring...
A mass of 1.51 kilograms is placed on a horizontal frictionless surface against an uncompressed spring with spring constant 869.1 N/m. The mass is pushed against the spring until the spring is compressed a distance 0.8 m and then released. How high (vertically) in m does the mass rise from the original height before it stops (momentarily).
A mass of 2.3 kilograms is placed on a horizontal frictionless surface against an uncompressed spring...
A mass of 2.3 kilograms is placed on a horizontal frictionless surface against an uncompressed spring with spring constant 1158.7 N/m. The mass is pushed against the spring until the spring is compressed a distance 0.76 m and then released. How high (vertically) in m does the mass rise from the original height before it stops (momentarily).
Question 1 1 pts A snowboarder passes a marker flag as she coasts up an inclined...
Question 1 1 pts A snowboarder passes a marker flag as she coasts up an inclined planar snow surface. The coefficient of kinetic friction between her snowboard and the snow is 0.09. She notices that she travels 40 m horizontally and 31.8m vertically (upward) before coming to rest. How fast was she moving as she passed the marker flag? Question 4 1 pts A mass of 1.6 kilograms is placed on a horizontal frictionless surface against an uncompressed spring with...
A spring with a spring constant of 718 N/m lies on a horizontal surface and that...
A spring with a spring constant of 718 N/m lies on a horizontal surface and that surface is y = 0 m to calculate the gravitational potential energy. A mass of 3 kg is compressed 0.45 meters into the spring and held still. After the mass is released it slides over a horizontal surface in which a 3.4 meter portion of the surface has friction with a coefficient of kinetic friction of 0.30. After the horizontal surface, it travels up...
A block of mass 3 kg is pushed against a spring of spring constant 3000 N/m....
A block of mass 3 kg is pushed against a spring of spring constant 3000 N/m. Initially, the spring is compressed by a distance of 0.220 m, when the block is released from rest and travels along a horizontal frictionless surface before encountering a frictionless ramp, inclined at an angle of 37° above the horizontal. How far along the ramp does the block travel before momentarily coming to rest?
A mass of 9 kg is placed on a horizontal frictionless surface and attached to a...
A mass of 9 kg is placed on a horizontal frictionless surface and attached to a spring. The mass is compressed 0.69 meters on the spring from equilibrium and held still. It is then released and it travels across the horizontal surface, around a frictionless quarter circular ramp, and it is launched into the air vertically and reaches a maximum height of 6 meters above the ground. The same mass is then attached to the same spring and hung vertically...
A mass of 1.8 kilograms is placed at height 0.5 meters above the dotted line above...
A mass of 1.8 kilograms is placed at height 0.5 meters above the dotted line above on a planar surface inclined at an angle of 30 degrees to the horizontal. The coefficient of kinetic friction between the mass and the inclined portion of the surface is 0.26. The mass is released, slides down the incline and compresses a spring with spring constant 1037.7 N/m. What is the largest compression in meters experienced by this spring?
A mass of 2.1 kilograms is placed at height 0.3 meters above the dotted line above...
A mass of 2.1 kilograms is placed at height 0.3 meters above the dotted line above on a planar surface inclined at an angle of 30 degrees to the horizontal. The coefficient of kinetic friction between the mass and the inclined portion of the surface is 0.32. The mass is released, slides down the incline and compresses a spring with spring constant 900.1 N/m. What is the largest compression in meters experienced by this spring?
TOELEN A mass of 2.1 kilograms is placed at height 0.5 meters above the dotted line...
TOELEN A mass of 2.1 kilograms is placed at height 0.5 meters above the dotted line above on a planar surface inclined at an angle of 30 degrees to the horizontal. The coefficient of kinetic friction between the mass and the inclined portion of the surface is 0.39. The mass is released, slides down the incline and compresses a spring with spring constant 1.120.4 N/m. What is the largest compression in meters experienced by this spring?
A block of mass m is pushed against a spring of spring constant k. The spring...
A block of mass m is pushed against a spring of spring constant k. The spring is compressed by a distance d, the block is then released. It is launched by the spring along a horizontal frictionless surface with a final speed v. A second block, this one having mass 9m is pushed against the same spring and released, gaining a final speed 3v. By what distance was the spring compressed in the second case?
A mass of 1.51 kilograms is placed on a horizontal frictionless surface against an uncompressed spring with spring constant 869.1 N/m. The mass is pushed against the spring until the spring is compressed a distance 0.8 m and then released. How high (vertically) in m does the mass rise from the original height before it stops (momentarily).
Question 1 1 pts A snowboarder passes a marker flag as she coasts up an inclined planar snow surface. The coefficient of kinetic friction between her snowboard and the snow is 0.09. She notices that she travels 40 m horizontally and 31.8m vertically (upward) before coming to rest. How fast was she moving as she passed the marker flag? Question 4 1 pts A mass of 1.6 kilograms is placed on a horizontal frictionless surface against an uncompressed spring with...
TOELEN A mass of 2.1 kilograms is placed at height 0.5 meters above the dotted line above on a planar surface inclined at an angle of 30 degrees to the horizontal. The coefficient of kinetic friction between the mass and the inclined portion of the surface is 0.39. The mass is released, slides down the incline and compresses a spring with spring constant 1.120.4 N/m. What is the largest compression in meters experienced by this spring?
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