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 0.20. How far will the plastic cube travel up the slope?
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Part A. A 43 g ice cube can slide without friction up and down a
30∘...
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...
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...
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...
3: A 10 kg box rests on a 30 degree incline and begins to slide down....
3: A 10 kg box rests on a 30 degree incline and begins to slide down. (a) what is the acceleration if no friction is present? (b) What is the acceleration if the coefficient of kinetic friction is 0.20? (c) What is the final speed of the box when it reaches the bottom of an incline that is 200 m (use the answer in part b) For problem 3 the input in EXCEL should be: Mass of the box, angle...
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 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...
22. An experiment is set-up as shown in the following figure. The upper surface where the...
22. An experiment is set-up as shown in the following figure. The upper surface where the spring is located and the slope are frictionless; however, the lower horizontal surface is rough. The height (h) of the upper surface is 0.75 m. A 1.2 kg box is held at rest against a 750 N/m spring such as to compress the spring 0.15 m. The box is released such that it slides along the upper surface and then down the slope. The...
Can you help me with the following. Thank you so much.A cannon tilted up at...
A cannon tilted up at a 28.0° angle fires a cannon ball at 68.0 m/s from atop a 16.0 m -high fortress wall. Part A What is the ball's impact speed on the ground below? A student places her 390 g physics book on a frictionless table. She pushes the book against a spring, compressing the spring by 4.80 cm , then releases the book. You may want to review (Pages 240 - 242) Part A What is the book's speed as it slides away? The spring...
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...
22. An experiment is set-up as shown in the following figure. The upper surface where the spring is located and the slope are frictionless; however, the lower horizontal surface is rough. The height (h) of the upper surface is 0.75 m. A 1.2 kg box is held at rest against a 750 N/m spring such as to compress the spring 0.15 m. The box is released such that it slides along the upper surface and then down the slope. The...
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