4) Using the newton's second law, write the expression for the acceleration of the puck along each axis 5) Using the equations from method question 4 determine an equation for the magnitude of the kinetic frictional force on the block in terms of mass, the acceleration and the angle of the block.
Just do question 4 and 5 other questions are just for reference if you need it.
1) Create a force diagram of the puck as it slides down the inclined plane. draw the vectors to represent all quantities that describe the motion of the block and the forces on it. What measurements could you make with a meter stick to determine the angle of the incline?
2) Choose a coordinate system. What is the reason for using the coordinate system you picked?
3) Recreate your force diagram. on the drawing, break down the vectors in terms of the coordinate system that you picked. make sure to mark the angles on your drawing.
4) Using the newton's second law, write the expression for the acceleration of the puck along each axis
5) Using the equations from method question 4 determine an equation for the magnitude of the kinetic frictional force on the block in terms of mass, the acceleration and the angle of the block.
Just do question 4 and 5 other questions are just for reference if you need it.
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