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A box of mass m is pressed against (but is not attached to) an ideal spring...
A box of mass m is pressed against (but is not attached to) an ideal spring of force constant k and negligible mass, compressing the spring a distance x.
A box of mass m is pressed against (but is not attached to) an ideal spring of force constant k and negligible mass, compressing the spring a distance x. After i is released the box slides up a frictionless incline as shown in the figure and eventually stops. If we repeat this experiment with a box of mass 2m A) the lighter box will go twice as high up the incline as the heavier box. B) both boxes will have the same...
A box of mass m is pressedagainst (but is not attached to) an ideal spring...
A box of mass m is pressed
against (but is not attached to) an ideal spring of force constant
k and negligible mass, compressing the spring a distance x. After
it is released, the box slides up a frictionless incline as shown
in the figure and eventually stops. If we repeat this experiment
but instead compress the spring a distance of 2x.
A box of mass m is pressed against (but is not attached to) an ideal spring...
A box of mass m is pressed against (but is not attached to) an ideal spring of force constant and eventually stops. Find the k and negligible mass, compressing the spring a distance x. After it is released, the box slides up a frictionless incline as shown in the figure maximum height h the box can reach in terms of m, k g and x? A) 2mgkx^2 B) 2 mg/2kx^2 C) kx^2/2 mg D) gkx^2/2m The potential energy (in SI...
A 2.00 kg block is pushed against a spring with negligible mass and force constant k = 400 N/m compressing it 0.220 m.
A 2.00 kg block is pushed against a spring with negligible mass and force constant k = 400 N/m compressing it 0.220 m. When the block is released, it moves along a frictionless, horizontal surface and then up a frictionless incline with slope 37.0 degree. What is the speed of the block as it slides along the horizontal surface after having left the spring? How far does the block travel up the incline before stops and starts to slide back...
A m= 2.00 kg block is pushed against a spring with negligible mass and force constant k= 300. N/m
A m= 2.00 kg block is pushed against a spring with negligible mass and force constant k= 300. N/m, compressing it d= 0.250 m. When the block is released, it moves along a frictionless, horizontal surface and then up an incline with slope 37.0° and a coefficient of kinetic friction of 0.320. A)What is the speed of the block as it slides along the horizontal surface after having left the spring?B) How far does the object travel up the incline before...
A 2.00 kg block is pushed against a spring with negligible mass and force constant k=...
A 2.00 kg block is pushed against a spring with negligible mass and force constant k= 310 N/m, compressing it 0.220 m. When the block is released, it moves along a horizontal rough surface (with a coefficient of kinetic, μk= 0.125 ) for the distance of d= 2.00 m and then up a frictionless incline. a) What is the speed of the block at the end of the horizontal surface? (I got 1.61) b) How far does the block travel up...
A 2.00 kg block is pushed against a spring with negligible mass and force constant k=...
A 2.00 kg block is pushed against a spring with negligible mass and force constant k= 310 N/m, compressing it 0.220 m. When the block is released, it moves along a horizontal rough surface (with a coefficient of kinetic, μk= 0.125 ) for the distance of d= 2.00 m and then up a frictionless incline. a) What is the speed of the block at the end of the horizontal surface? (I got 1.61) b)How far does the block travel up the...
A 195 g block is pressed against a spring of force constant 1.50 kN/m until the...
A 195 g block is pressed against a spring of force constant 1.50 kN/m until the block compresses the spring 10.0 cm. The spring rests at the bottom of a ramp inclined at 60.0° to the horizontal. Using energy considerations, determine how far up the incline (in m) the block moves from its initial position before it stops under the following conditions. (a) if the ramp exerts no friction force on the block m (b) if the coefficient of kinetic...
A 195 g block is pressed against a spring of force constant 1.60 kN/m until the block compresses the spring 10.0 cm.
A 195 g block is pressed against a spring of force constant 1.60 kN/m until the block compresses the spring 10.0 cm. The spring rests at the bottom of a ramp inclined at 60.0° to the horizontal. Using energy considerations, determine how far up the incline in m) the block moves from its initial position before it stops under the following conditions. (a) if the ramp exerts no friction force on the block (b) if the coefficient of kinetic friction is 0.360...
A 2-kg block is pushed against a spring with spring-constant k 512 N/m, compressing it 0.25 m
A 2-kg block is pushed against a spring with spring-constant k 512 N/m, compressing it 0.25 m. When the block is released, it moves along a frictionless, horizontal surface and then up a frictionless incline with slope 53.1° (a) What is the speed of the block as it slides along the horizontal surface after having left the spring? (b) How far does the block travel up the incline before starting to slide back down?
A box of mass m is pressed against (but is not attached to) an ideal spring of force constant and eventually stops. Find the k and negligible mass, compressing the spring a distance x. After it is released, the box slides up a frictionless incline as shown in the figure maximum height h the box can reach in terms of m, k g and x? A) 2mgkx^2 B) 2 mg/2kx^2 C) kx^2/2 mg D) gkx^2/2m The potential energy (in SI...
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