Place a friction block (fuzzy side down) near one end of the track and slowly li
ID: 2135488 • Letter: P
Question
Place a friction block (fuzzy side down) near one end of the track and slowly lift that end until the friction block slips.Briefly explain the relationship between the angle of slip and the coefficient of friction, in particular with respect to the relevant warmup result. How might you accurately measure the angle of slip? Experiment with the flip side of the block and then (in either orientation) stack extra mass on the block. Does the additional mass matter? Should it? Place a friction block (fuzzy side down) near one end of the track and slowly lift that end until the friction block slips.
Briefly explain the relationship between the angle of slip and the coefficient of friction, in particular with respect to the relevant warmup result. How might you accurately measure the angle of slip? Experiment with the flip side of the block and then (in either orientation) stack extra mass on the block. Does the additional mass matter? Should it? Place a friction block (fuzzy side down) near one end of the track and slowly lift that end until the friction block slips.
Briefly explain the relationship between the angle of slip and the coefficient of friction, in particular with respect to the relevant warmup result. How might you accurately measure the angle of slip? Experiment with the flip side of the block and then (in either orientation) stack extra mass on the block. Does the additional mass matter? Should it? Place a friction block (fuzzy side down) near one end of the track and slowly lift that end until the friction block slips.
Briefly explain the relationship between the angle of slip and the coefficient of friction, in particular with respect to the relevant warmup result. How might you accurately measure the angle of slip? Experiment with the flip side of the block and then (in either orientation) stack extra mass on the block. Does the additional mass matter? Should it?
Explanation / Answer
tan(angle)=mu*g, wher mu= friction coefficient