A 70 g ice cube can slide without friction up and down a 30∘ slope. The...
A 70 g ice cube can slide without friction up and down a 30∘ slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10 cm. The spring constant is 30 N/m . When the ice cube is released, what total distance will it travel up the slope before reversing direction? I know the answer for this part is 44 cm.
I am trying to find the following: The ice cube is replaced by a 70 g plastic cube whose coefficient of kinetic friction is 0.20. How far will the plastic cube travel up the slope? Can someone help explain this?
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A 70 g ice cube can slide without friction up and down a 30∘
slope. The...
Part A. A 43 g ice cube can slide without friction up and down a 30∘...
Part A. A 43 g ice cube can slide without friction up and down a 30∘ slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10 cm. The spring constant is 29 N/m . When the ice cube is released, what total distance will it travel up the slope before reversing direction? Part B. The ice cube is replaced by a 43 g plastic cube whose coefficient of kinetic friction is...
A 50 g ice cube can slide without friction up and down a 29° slope. The...
A 50 g ice cube can slide without friction up and down a 29° slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10.07 cm. The spring constant is 38 N/m. When the ice cube is released, what distance will it travel up the slope before reversing direction?
Ice cube
An ice cube of mass 50.0 g can slide without friction up and down a 25.0 degree slope. The ice cube is pressed against a spring at the bottom of the slope,compressing the spring 0.100 m. The spring constant is 25.0 N/m. When the ice cube is released, how far will it travel up the slope before reversing direction?Identify the initial and final gravitational potential energies.Enter your answers, separated by a comma, in terms of some or all of the...
To practice Problem-Solving Strategy 10.1 Conservation of energy problems. An ice cube of mass 50.0g can...
To practice Problem-Solving Strategy 10.1 Conservation of energy
problems.
An ice cube of mass 50.0g can slide without friction up and down
a 25.0degree slope. The ice cube is pressed against a spring at the
bottom of the slope, compressing the spring 0.100m . The spring
constant is 25.0N/m . When the ice cube is released, how far will
it travel up the slope before reversing direction?
Part B
You should compile two lists: one of known quantities and one...
1.A solid cylinder rolls without slipping down a 30° slope. Find the minimum coefficient of friction...
1.A solid cylinder rolls without slipping down a 30° slope.
Find the minimum coefficient of friction needed to prevent
slipping.
2.A rectangular block 0.25m wide and 0.5m height is dragged to the
right along a level surface at constant speed by a horizontal force
P (acting on the right side of the block with height h above the
level surface) Find the value of h at which the block just starts
to tip (a) 0.4375m (b) 0.3125m (c) 0.1375m (d)...
To practice Problem-Solving Strategy 10.1 Conservation of energy
problems.
An ice cube of mass 50.0g can slide without friction up and down
a 25.0degree slope. The ice cube is pressed against a spring at the
bottom of the slope, compressing the spring 0.100m . The spring
constant is 25.0N/m . When the ice cube is released, how far will
it travel up the slope before reversing direction?
Part B
You should compile two lists: one of known quantities and one...
1.A solid cylinder rolls without slipping down a 30° slope.
Find the minimum coefficient of friction needed to prevent
slipping.
2.A rectangular block 0.25m wide and 0.5m height is dragged to the
right along a level surface at constant speed by a horizontal force
P (acting on the right side of the block with height h above the
level surface) Find the value of h at which the block just starts
to tip (a) 0.4375m (b) 0.3125m (c) 0.1375m (d)...
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