A) How can you apply the conservation of mechanical energy equation once to determine the force of friction acting on th
Posted: Mon May 23, 2022 11:12 am
A) How can you apply the conservation of mechanical energy equation once to determine the force of friction acting on the block between points C and D?b. Draw a sketch of this scenario, with the initial and final states you chose in part a labeled and a horizontal line drawn to represent your choice of the P*E_{8} = 0 height. C)List the non-conservative forces that are at play in this problem and whether they are doing positive, negative, or zero work on the system. d . Determine the force of friction acting on the block between points C and D. e . What is the coefficient of kinetic friction between the block and the surface between points and D? f . By how much will the spring compress after the block collides with the spring a second time, after having gone up and back down the ramps exactly two times? g. How many times in total does the block, on its way up the ramp make the full trip from C to D?
b. Draw a sketch of this scenario, with the initial and final states you chose in part a labeled and a horizontal line drawn to represent your choice of the P*E_{8} = 0 height.
C)List the non-conservative forces that are at play in this problem and whether they are doing positive, negative, or zero work on the system.
d . Determine the force of friction acting on the block between points C and D.
e . What is the coefficient of kinetic friction between the block and the surface between points and D?
f . By how much will the spring compress after the block collides with the spring a second time, after having gone up and back down the ramps exactly two times?
g. How many times in total does the block, on its way up the ramp make the full trip from C to D?
b. Draw a sketch of this scenario, with the initial and final states you chose in part a labeled and a horizontal line drawn to represent your choice of the P*E_{8} = 0 height.
C)List the non-conservative forces that are at play in this problem and whether they are doing positive, negative, or zero work on the system.
d . Determine the force of friction acting on the block between points C and D.
e . What is the coefficient of kinetic friction between the block and the surface between points and D?
f . By how much will the spring compress after the block collides with the spring a second time, after having gone up and back down the ramps exactly two times?
g. How many times in total does the block, on its way up the ramp make the full trip from C to D?