# Frictional Forces

### Topic Page

Frictional Forces### Questions

- Question #d6539
- Question #242b7
- Question #6bde4
- Question #50c79
- Question #a2018
- Question #f7a62
- Question #27931
- Question #0b375
- Question #d70af
- Question #dab6f
- What frictional forces slow a pushbike?
- How are frictional forces measured?
- How does friction affect the net force?
- How can frictional forces be reduced?
- How is friction force related to surface area?
- How does frictional force affect the velocity of an object?
- How are frictional forces reduced in car engines?
- How is the average force of friction calculated?
- How do frictional forces affect the operation and efficiency of a machine?
- Why do new shoes squeak?
- Question #53728
- Question #f158f
- The mass of each car is 600kg, 970kg, 230kg, 810kg, 660kg. The force of friction on each car is 1980N, 3201N, 759N, 2673N, 2178N respectively. What is the magnitude of the backward forces on the 2nd car?
- A stick figure is pushing three boxes across the screen. The mass of the blue box is 74kg, the mass of the red box is 86kg and the mass of the yellow box is 16kg. What is the friction force on the red box?
- A man is loading a 172kg crate into a moving truck. The ramp makes an angle of 18° compared to the flat ground. What is the coefficient of kinetic friction between the crate and the ramp?
- If you use a horizontal force of 30.0 N to slide a 12.0 kg wooden crate across a ﬂoor at a constant velocity, what is the coefficient of friction between the crate and the floor?
- A hockey puck is hit on a frozen lake and starts moving with a speed of 12.0 m/s. Exactly 5.0 s later, its speed is 6.0 m/s. What is the puck’s average acceleration, and what is the coefficient of kinetic friction between puck and ice?
- Question #e135f
- If a #3kg# object moving at #15m/s# slows down to a halt after moving 25 m, what is the friction coefficient of the surface that the object was moving over?
- If a #3kg# object moving at #1 m/s# slows down to a halt after moving 2 m, what is the friction coefficient of the surface that the object was moving over?
- If a #6kg# object moving at #4 m/s# slows down to a halt after moving 12 m, what is the friction coefficient of the surface that the object was moving over?
- If a #10kg# object moving at #1 m/s# slows down to a halt after moving #3/2 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #10kg# object moving at #7 m/s# slows down to a halt after moving #5/2 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #10kg# object moving at #3 m/s# slows down to a halt after moving #5/2 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #10kg# object moving at #12# #ms^-1# slows down to a halt after moving #7 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #4 kg# object moving at #12 m/s# slows down to a halt after moving #12 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #1 kg# object moving at #1 m/s# slows down to a halt after moving #1 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #13 kg# object moving at #7 m/s# slows down to a halt after moving #10 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #13 kg# object moving at #400 m/s# slows down to a halt after moving #20 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #13 kg# object moving at #4 m/s# slows down to a halt after moving #80 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #1 kg# object moving at #3 m/s# slows down to a halt after moving #8 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #3 kg# object moving at #6 m/s# slows down to a halt after moving #3 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #2 kg# object moving at #5 m/s# slows down to a halt after moving #3 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #2 kg# object moving at #9 m/s# slows down to a halt after moving #2 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #2 kg# object moving at #10 m/s# slows down to a halt after moving #1 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #2# #kg# object moving at #6# #ms^-1# slows down to a halt after moving #10# #m#, what is the friction coefficient of the surface that the object was moving over?
- If a #2 kg# object moving at #5 m/s# slows down to a halt after moving #100 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #1 kg# object moving at #16 m/s# slows down to a halt after moving #10 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #4 kg# object moving at #16 m/s# slows down to a halt after moving #800 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #4 kg# object moving at #1 m/s# slows down to a halt after moving #90 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #6 kg# object moving at #12 m/s# slows down to a halt after moving #9 m#, what is the friction coefficient of the surface that the object was moving over?
- If a #6 kg# object moving at #1 m/s# slows down to a halt after moving #3 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #11 kg# object moving at #45 m/s# slows down to a halt after moving #900 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #11 kg# object moving at #15 ms^-1# slows down to a halt after moving #225 m,# what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1 kg# object moving at #25 m/s# slows down to a halt after moving #625 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1 kg# object moving at #9 m/s# slows down to a halt after moving #40.5 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1 kg# object moving at #10 m/s# slows down to a halt after moving #50 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1 kg# object moving at #14 m/s# slows down to a halt after moving #7 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1 kg# object moving at #7 m/s# slows down to a halt after moving #140 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3 kg# object moving at #9 m/s# slows down to a halt after moving #27 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #9# #kg# object moving at #9# #ms^-1# slows down to a halt after moving #81# #m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3 kg# object moving at #20 m/s# slows to a halt after moving #500 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #5 kg# object moving at #2 m/s# slows to a halt after moving #50 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #5 kg# object moving at #15 m/s# slows to a halt after moving #12 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #5 kg# object moving at #5 m/s# slows to a halt after moving #25 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #5 kg# object moving at #6 m/s# slows to a halt after moving #2 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #4 kg# object moving at #6 m/s# slows to a halt after moving #35 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #8 kg# object moving at #16 m/s# slows to a halt after moving #80 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #8 kg# object moving at #18 m/s# slows to a halt after moving #180 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3 kg# object moving at #8 m/s# slows to a halt after moving #180 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3 kg# object moving at #5 m/s# slows to a halt after moving #10 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3# #kg# object moving at #30# #ms^-1# slows to a halt after moving #9# #m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #80 m/s# slows to a halt after moving #9 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #80 m/s# slows to a halt after moving #4 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #12 m/s# slows to a halt after moving #144 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #13 m/s# slows to a halt after moving #19 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2# #kg# object moving at #10# #ms^-1# slows to a halt after moving #25# #m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #1 m/s# slows to a halt after moving #1/4 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3/2 kg# object moving at #5/2 m/s# slows to a halt after moving #1/5 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #"0.50 kg"# object moving at #"3.5 m/s"# slows to a halt after moving #"0.25 m"#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1/2 kg# object moving at #7/4 m/s# slows to a halt after moving #3/8 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #7/2 kg# object moving at #9/4 m/s# slows to a halt after moving #3/8 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3/2 kg# object moving at #3/4# #ms^-1# slows to a halt after moving #5/8 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1/2 kg# object moving at #1/4 m/s# slows to a halt after moving #1/8 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1/24 kg# object moving at #5/4 m/s# slows to a halt after moving #1/6 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #1/24 kg# object moving at #1/3 m/s# slows to a halt after moving #10/27 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3/2 kg# object moving at #4/3 m/s# slows to a halt after moving #1/3 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3/2 kg# object moving at #5/3 m/s# slows to a halt after moving #4/3 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #3/2 kg# object moving at #8 m/s# slows to a halt after moving #4 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #3 m/s# slows to a halt after moving #5 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #2 kg# object moving at #1/2 m/s# slows to a halt after moving #5 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #4 kg# object moving at #5/2 m/s# slows to a halt after moving #12 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #4 kg# object moving at #5/4 m/s# slows to a halt after moving #8 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If a #4 kg# object moving at #2/3 m/s# slows to a halt after moving #6 m#, what is the coefficient of kinetic friction of the surface that the object was moving over?
- If an object is moving at #20 m/s# over a surface with a kinetic friction coefficient of #u_k=3/g#, how much time will it take for the object to stop moving?
- If an object is moving at #120 m/s# over a surface with a kinetic friction coefficient of #u_k=7 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #120 m/s# over a surface with a kinetic friction coefficient of #u_k=12 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #10 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #100 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #150 m/s# over a surface with a kinetic friction coefficient of #u_k=15 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=225 /g#, how much time will it take for the object to stop moving?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=225 /g#, how far will the object continue to move?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=25 /g#, how far will the object continue to move?
- If an object is moving at #6 m/s# over a surface with a kinetic friction coefficient of #u_k=3 /g#, how far will the object continue to move?
- If an object is moving at #7# #ms^-1# over a surface with a kinetic friction coefficient of #u_k=2/g#, how far will the object continue to move?
- If an object is moving at #18 m/s# over a surface with a kinetic friction coefficient of #u_k=12 /g#, how far will the object continue to move?
- If an object is moving at #4 m/s# over a surface with a kinetic friction coefficient of #u_k=12 /g#, how far will the object continue to move?
- If an object is moving at #4 ms^-1# over a surface with a kinetic friction coefficient of #u_k=3 /g#, how far will the object continue to move?
- If an object is moving at #14 m/s# over a surface with a kinetic friction coefficient of #u_k=10 /g#, how far will the object continue to move?
- If an object is moving at #8 m/s# over a surface with a kinetic friction coefficient of #u_k=9 /g#, how far will the object continue to move?
- If an object is moving at #5 m/s# over a surface with a kinetic friction coefficient of #u_k=3 /g#, how far will the object continue to move?
- If an object is moving at #3 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how far will the object continue to move?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how far will the object continue to move?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=15 /g#, how far will the object continue to move?
- If an object is moving at #6 m/s# over a surface with a kinetic friction coefficient of #u_k=24 /g#, how far will the object continue to move?
- If an object is moving at #6 m/s# over a surface with a kinetic friction coefficient of #u_k=20 /g#, how far will the object continue to move?
- If an object is moving at #2 m/s# over a surface with a kinetic friction coefficient of #u_k=17 /g#, how far will the object continue to move?
- If an object is moving at #2 m/s# over a surface with a kinetic friction coefficient of #u_k=6 /g#, how far will the object continue to move?
- If an object is moving at #1 m/s# over a surface with a kinetic friction coefficient of #u_k=1 /g#, how far will the object continue to move?
- If an object is moving at #12 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how far will the object continue to move?
- If an object is moving at #80 m/s# over a surface with a kinetic friction coefficient of #u_k=6 /g#, how far will the object continue to move?
- If an object is moving at #50 m/s# over a surface with a kinetic friction coefficient of #u_k=8 /g#, how far will the object continue to move?
- If an object is moving at #10 m/s# over a surface with a kinetic friction coefficient of #u_k=3 /g#, how far will the object continue to move?
- If an object is moving at #40 m/s# over a surface with a kinetic friction coefficient of #u_k=12 /g#, how far will the object continue to move?
- If an object is moving at #48 m/s# over a surface with a kinetic friction coefficient of #u_k=3 /g#, how far will the object continue to move?
- If an object is moving at #50 m/s# over a surface with a kinetic friction coefficient of #u_k=2 /g#, how far will the object continue to move?
- If an object is moving at #3 m/s# over a surface with a kinetic friction coefficient of #u_k=20 /g#, how far will the object continue to move?
- If an object is moving at #8 m/s# over a surface with a kinetic friction coefficient of #u_k=64 /g#, how far will the object continue to move?
- If an object is moving at #8 m/s# over a surface with a kinetic friction coefficient of #u_k=32 /g#, how far will the object continue to move?
- If an object is moving at #12 m/s# over a surface with a kinetic friction coefficient of #u_k=2 /g#, how far will the object continue to move?
- If an object is moving at #22 m/s# over a surface with a kinetic friction coefficient of #u_k=11 /g#, how far will the object continue to move?
- If an object is moving at #24 m/s# over a surface with a kinetic friction coefficient of #u_k=6 /g#, how far will the object continue to move?
- If an object is moving at #120 m/s# over a surface with a kinetic friction coefficient of #u_k=8 /g#, how far will the object continue to move?
- If an object is moving at #10 m/s# over a surface with a kinetic friction coefficient of #u_k=2 /g#, how far will the object continue to move?
- If an object is moving at #1 m/s# over a surface with a kinetic friction coefficient of #u_k=5 /g#, how far will the object continue to move?
- If an object is moving at #15 m/s# over a surface with a kinetic friction coefficient of #u_k=2 /g#, how far will the object continue to move?
- If an object is moving at #150 m/s# over a surface with a kinetic friction coefficient of #u_k=15 /g#, how far will the object continue to move?
- If an object is moving at #150 m/s# over a surface with a kinetic friction coefficient of #u_k=2250 /g#, how far will the object continue to move?
- If an object is moving at #16# #ms^-1# over a surface with a kinetic friction coefficient of #u_k=80/g#, how far will the object continue to move?
- If an object is moving at #4 m/s# over a surface with a kinetic friction coefficient of #u_k=80 /g#, how far will the object continue to move?
- If an object is moving at #2# #ms^-1# over a surface with a kinetic friction coefficient of #mu_k=8/g#, how far will the object continue to move?
- If an object is moving at #4 ms^-1# over a surface with a kinetic friction coefficient of #mu_k=16 /g#, how far will the object continue to move?
- If an object is moving at #7# #ms^-1# over a surface with a kinetic friction coefficient of #u_k=14 /g#, how far will the object continue to move?
- If an object is moving at #12 m/s# over a surface with a kinetic friction coefficient of #u_k=24 /g#, how far will the object continue to move?
- If an object is moving at #11 m/s# over a surface with a kinetic friction coefficient of #u_k=22 /g#, how far will the object continue to move?
- A car of mass 1490 kg makes a 23.0 m radius turn at 7.85 m/s on flat ground. What is the (minimum) coefficient of static friction?
- If an object with a mass of #10 kg # is moving on a surface at #8 m/s# and slows to a halt after # 7 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #15 m/s# and slows to a halt after # 7 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #15 m/s# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #18 m/s# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #8 m/s# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #3m/s# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #15 ms^-1# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #45 m/s# and slows to a halt after # 4 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #45 m/s# and slows to a halt after # 6 s#, what is the friction coefficient of the surface?
- If an object with a mass of #10 kg # is moving on a surface at #4 m/s# and slows to a halt after # 6 s#, what is the friction coefficient of the surface?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 7 #. How much force is necessary to accelerate the object horizontally at #2 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 7 #. How much force is necessary to accelerate the object horizontally at #28 m/s^2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 7 #. How much force is necessary to accelerate the object horizontally at #28 m/s^2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 7 #. How much force is necessary to accelerate the object horizontally at #6 m/s^2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 3 #. How much force is necessary to accelerate the object horizontally at #6 m/s^2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 9 #. How much force is necessary to accelerate the object horizontally at #6# #ms^-2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 9 #. How much force is necessary to accelerate the object horizontally at #3 ms^-2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at #8 m/s^2#?
- An object with a mass of #2 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at #12 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at #12 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at #6 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 3 #. How much force is necessary to accelerate the object horizontally at #6 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 3 #. How much force is necessary to accelerate the object horizontally at #2 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 3 #. How much force is necessary to accelerate the object horizontally at #7 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at #1 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 3 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 7 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 17 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 12 m/s^2#?
- An object with a mass of #5 # # kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 6# #ms^-2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 9 m/s^2#?
- An object with a mass of #5 kg# is on a surface with a kinetic friction coefficient of # 4 #. How much force is necessary to accelerate the object horizontally at # 32 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 32 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 1 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 21 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 31 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 3 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 4 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 14 m/s^2#?
- An object with a mass of #7 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 12 m/s^2#?
- An object with a mass of #6 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 7 m/s^2#?
- An object with a mass of #6 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 9 m/s^2#?
- An object with a mass of #6 kg# is on a surface with a kinetic friction coefficient of # 8 #. How much force is necessary to accelerate the object horizontally at # 19 m/s^2#?
- An object with a mass of #6 "kg"# is on a surface with a kinetic friction coefficient of #15#. How much force is necessary to accelerate the object horizontally at #1 "m/s"^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 15 #. How much force is necessary to accelerate the object horizontally at # 1 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 15 #. How much force is necessary to accelerate the object horizontally at # 4 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 1 #. How much force is necessary to accelerate the object horizontally at # 4 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 1 #. How much force is necessary to accelerate the object horizontally at # 3 m/s^2#?
- An object with a mass of #12# #kg# is on a surface with a kinetic friction coefficient of # 1 #. How much force is necessary to accelerate the object horizontally at #7 # #ms^-2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 1 #. How much force is necessary to accelerate the object horizontally at # 14 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at # 14 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at # 3 m/s^2#?
- An object with a mass of #12 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at # 17 m/s^2#?
- An object with a mass of #18 kg# is on a surface with a kinetic friction coefficient of # 2 #. How much force is necessary to accelerate the object horizontally at # 17 m/s^2#?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/4 #. If the object is being pushed up the ramp with a force of # 8 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 8 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #2 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 8 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #5 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 8 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #6 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 3 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 4 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #8 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 4 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #24 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 4 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #24 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 6 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 6 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #12 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 6 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #19 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 6 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #3 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #5 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/12 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #7 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #5 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #4 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 2 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #6 "kg"# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 2 "N"#, what is the minimum coefficient of static friction needed for the object to remain stationary?
- An object with a mass of # 5 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 4 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of # 8 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 4 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of # 8 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 7 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of # 15 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 7 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of # 15 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 9 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of # 8 kg# is on a ramp at an incline of #pi/8 #. If the object is being pushed up the ramp with a force of # 9 N#, what is the minimum coefficient of static friction needed for the object to remain put?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2+2 #. How much work would it take to move the object over #x in [2, 5], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2+2 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x+3 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x+2 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 6x-1 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2-x+3 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2-3x+6 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #mu_k(x)= x^2-3x+6 #. How much work would it take to move the object over #x in [2, 3]#, where #x# is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2-3x+6 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3x^2-2x+12 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3x^2-2x+12 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3x^2+12 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3x^2+x+2 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3x^2-x+2 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-1 #. How much work would it take to move the object over #x in [1, 3], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-1 #. How much work would it take to move the object over #x in [1, 2], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-x+3 #. How much work would it take to move the object over #x in [1, 2], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-x+3 #. How much work would it take to move the object over #x in [1, 4], where x is in meters?
- An object with a mass of #1 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2e^x-x+3 #. How much work would it take to move the object over #x in [1, 4]#, where x is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2e^x-x+3 #. How much work would it take to move the object over #x in [1, 4], where x is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-2x+3 #. How much work would it take to move the object over #x in [1, 4], where x is in meters?
- An object with a mass of #3 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-2x+3 #. How much work would it take to move the object over #x in [3, 4], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x-2x+3 #. How much work would it take to move the object over #x in [3, 4], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x+x #. How much work would it take to move the object over #x in [3, 4], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x+x #. How much work would it take to move the object over #x in [1, 4], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= e^x+x #. How much work would it take to move the object over #x in [1, 2], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= xe^x+x #. How much work would it take to move the object over #x in [1, 2], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= xe^x-x #. How much work would it take to move the object over #x in [1, 2], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= xe^x-x #. How much work would it take to move the object over #x in [1, 4], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+sinx #. How much work would it take to move the object over #x in [0, 5pi], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x+xsinx #. How much work would it take to move the object over #x in [0, 5pi], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x+xsinx #. How much work would it take to move the object over #x in [0, 8pi]#, where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+sin(x/3) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1-cos(x/3) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #5 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1-cos(x/2) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1-cos(x/2) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1-cos(x/6) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1-cos(pi/4-x/6) #. How much work would it take to move the object over #x in [0, 8pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+xcos(pi/4-x/6) #. How much work would it take to move the object over #x in [0, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+x+xcos(pi/4-x/6) #. How much work would it take to move the object over #x in [0, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+x-xcos(x/6) #. How much work would it take to move the object over #x in [0, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+x-xcos(x) #. How much work would it take to move the object over #x in [0, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+x^2-xcos(x) #. How much work would it take to move the object over #x in [pi, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3+2sin(x) #. How much work would it take to move the object over #x in [pi, 4pi], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 3+sin(4x) #. How much work would it take to move the object over #x in [pi, 4pi], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= xlnx #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x+lnx #. How much work would it take to move the object over #x in [2, 6]#, where #x# is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2+3x #. How much work would it take to move the object over #x in [2, 6], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= x^2+3x #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2x^2-x #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2x^2-3x #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5x^2-3x+1 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5x^2-x+1 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2x^2-x+7 #. How much work would it take to move the object over #x in [2, 3], where x is in meters?
- An object with a mass of #8 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2x^2-x+7 #. How much work would it take to move the object over #x in [2, 5], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+sinx #. How much work would it take to move the object over #x in [2, 5], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/12, (5pi)/6]#, where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/12, (3pi)/4], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/4, (3pi)/4], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/2, (3pi)/4], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/6, (3pi)/4], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/8, (3pi)/4], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/8, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/8, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [pi/2, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 2+cscx #. How much work would it take to move the object over #x in [(3pi)/4, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cscx #. How much work would it take to move the object over #x in [(3pi)/4, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(3pi)/4, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(pi)/4, (7pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(pi)/4, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(pi)/8, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(pi)/12, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+cotx #. How much work would it take to move the object over #x in [(pi)/12, (5pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+5cotx#. How much work would it take to move the object over #x in [(5pi)/12, (5pi)/8]#, where #x# is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+5cotx #. How much work would it take to move the object over #x in [(7pi)/12, (5pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+5cotx #. How much work would it take to move the object over #x in [(11pi)/12, (5pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+5cotx #. How much work would it take to move the object over #x in [(11pi)/12, (7pi)/8]#, where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+5cotx #. How much work would it take to move the object over #x in [(pi)/12, (3pi)/8]#, where #x# is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+3cotx #. How much work would it take to move the object over #x in [(pi)/12, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+3cotx #. How much work would it take to move the object over #x in [(pi)/6, (3pi)/8], where x is in meters?
- An object with a mass of #6 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+3cscx #. How much work would it take to move the object over #x in [(pi)/6, (pi)/4], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+3cscx #. How much work would it take to move the object over #x in [(pi)/6, (pi)/4], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 1+3cscx #. How much work would it take to move the object over #x in [(pi)/12, (pi)/4], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-pi)/12, (5pi)/12], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-5pi)/12, (5pi)/12], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(pi)/12, (5pi)/12], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(3pi)/12, (5pi)/12], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-5pi)/12, (pi)/3], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-3pi)/12, (pi)/3], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(pi)/12, (pi)/3]#, where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(pi)/12, (pi)/4]#, where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-pi)/12, (pi)/4]#, where #x# is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-3pi)/12, (pi)/4], where x is in meters?
- An object with a mass of #4 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 5+tanx #. How much work would it take to move the object over #x in [(-5pi)/12, (pi)/4]#, where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #mu_k(x)= 4+secx#. How much work would it take to move the object over #x in [(-5pi)/12, (pi)/4]#, where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(-5pi)/12, (pi)/6], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(-3pi)/12, (pi)/6], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(-pi)/12, (pi)/6], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(pi)/12, (pi)/6], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(pi)/8, (pi)/6], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(pi)/8, (pi)/3], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(pi)/8, (pi)/4], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(pi)/8, (5pi)/12], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(-pi)/12, (pi)/12], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [0, (pi)/12], where x is in meters?
- An object with a mass of #7 kg# is pushed along a linear path with a kinetic friction coefficient of #u_k(x)= 4+secx #. How much work would it take to move the object over #x in [(-5pi)/12, (pi)/12], where x is in meters?
- An object with a mass of #2 kg# is on a plane with an incline of # - pi/12 #. If it takes #1 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/12 #. If it takes #12 N# to start pushing the object down the plane and #9 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/12 #. If it takes #12 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/12 #. If it takes #8 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/8 #. If it takes #4 N# to start pushing the object down the plane and #1 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/8 #. If it takes #4 N# to start pushing the object down the plane and #3 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #3 kg# is on a plane with an incline of # - pi/8 #. If it takes #15 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #5 kg# is on a plane with an incline of # - pi/8 #. If it takes #8 N# to start pushing the object down the plane and #8 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #5 kg# is on a plane with an incline of # - pi/8 #. If it takes #8 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #5 kg# is on a plane with an incline of # - pi/8 #. If it takes #8 N# to start pushing the object down the plane and #3 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #5 kg# is on a plane with an incline of # - pi/8 #. If it takes #18 N# to start pushing the object down the plane and #3 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #4 kg# is on a plane with an incline of # - pi/8 #. If it takes #18 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #4 kg# is on a plane with an incline of # - pi/8 #. If it takes #18 N# to start pushing the object down the plane and #15 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # - pi/6 #. If it takes #18 N# to start pushing the object down the plane and #15 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # - pi/6 #. If it takes #18 N# to start pushing the object down the plane and #1 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/6 #. If it takes #9 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/6 #. If it takes #9 N# to start pushing the object down the plane and #4 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # - pi/6 #. If it takes #9 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # - pi/6 #. If it takes #9 N# to start pushing the object down the plane and #8 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # - pi/6 #. If it takes #6 N# to start pushing the object down the plane and #4 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # - pi/6 #. If it takes #6 N# to start pushing the object down the plane and #3 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #7 kg# is on a plane with an incline of # - pi/6 #. If it takes #15 N# to start pushing the object down the plane and #8 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # - pi/6 #. If it takes #15 N# to start pushing the object down the plane and #6 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # - pi/4 #. If it takes #24 N# to start pushing the object down the plane and #9 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #9 kg# is on a plane with an incline of # - pi/4 #. If it takes #24 N# to start pushing the object down the plane and #9 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #9 kg# is on a plane with an incline of # - pi/4 #. If it takes #24 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #9 kg# is on a plane with an incline of # - pi/4 #. If it takes #15 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #9# #kg# is on a plane with an incline of #- pi/4 #. If it takes #15# #N# to start pushing the object down the plane and #7# #N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #4 kg# is on a plane with an incline of # - pi/4 #. If it takes #7 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #4 kg# is on a plane with an incline of # - pi/4 #. If it takes #7 N# to start pushing the object down the plane and #6 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #10 kg# is on a plane with an incline of # - pi/4 #. If it takes #12 N# to start pushing the object down the plane and #6 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #10 kg# is on a plane with an incline of # - pi/4 #. If it takes #12 N# to start pushing the object down the plane and #4 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #10 kg# is on a plane with an incline of # - pi/4 #. If it takes #12 N# to start pushing the object down the plane and #7 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #10 kg# is on a plane with an incline of # - pi/4 #. If it takes #12 N# to start pushing the object down the plane and #8 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #7 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #2 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #3 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #2 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #4 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #2 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/3 #. If it takes #15 N# to start pushing the object down the plane and #12 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/3 #. If it takes #16 N# to start pushing the object down the plane and # 15 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/3 #. If it takes #6 N# to start pushing the object down the plane and #7 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #8 kg# is on a plane with an incline of # - pi/3 #. If it takes #9 N# to start pushing the object down the plane and #7 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #14# # kg# is on a plane with an incline of # - pi/3 #. If it takes #12# # N# to start pushing the object down the plane and #7 # # N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #14 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #11 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #14 kg# is on a plane with an incline of # - pi/3 #. If it takes #12 N# to start pushing the object down the plane and #8 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #14 kg# is on a plane with an incline of # -(5 pi)/12 #. If it takes #12 N# to start pushing the object down the plane and #7 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #5 kg# is on a plane with an incline of # -(5 pi)/12 #. If it takes #12 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #18 kg# is on a plane with an incline of # -(5 pi)/12 #. If it takes #9 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #18 kg# is on a plane with an incline of # -(5 pi)/12 #. If it takes #9 N# to start pushing the object down the plane and #4 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #16 kg# is on a plane with an incline of # -(3 pi)/8 #. If it takes #24 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # -(3 pi)/8 #. If it takes #25 N# to start pushing the object down the plane and #15 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #12 kg# is on a plane with an incline of # -(3 pi)/8 #. If it takes # 4 N# to start pushing the object down the plane and #2 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # -(3 pi)/8 #. If it takes # 15 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of #6 kg# is on a plane with an incline of # -(3 pi)/8 #. If it takes # 8 N# to start pushing the object down the plane and #5 N# to keep pushing it, what are the coefficients of static and kinetic friction?
- An object with a mass of # 5 kg# is lying on a surface and is compressing a horizontal spring by #20 cm#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying on a surface and is compressing a horizontal spring by #20 cm#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying on a surface and is compressing a horizontal spring by #20 cm#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying on a surface and is compressing a horizontal spring by #25 cm#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying on a surface and is compressing a horizontal spring by #8 cm#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 4 kg# is lying on a surface and is compressing a horizontal spring by #8 cm#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 4 kg# is lying on a surface and is compressing a horizontal spring by #8 cm#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 4 kg# is lying on a surface and is compressing a horizontal spring by #50 cm#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying on a surface and is compressing a horizontal spring by #50 cm#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying on a surface and is compressing a horizontal spring by #50 cm#. If the spring's constant is # 3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying on a surface and is compressing a horizontal spring by #40 cm#. If the spring's constant is # 3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying on a surface and is compressing a horizontal spring by #40 cm#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 15 kg# is lying on a surface and is compressing a horizontal spring by #40 cm#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 18 kg# is lying on a surface and is compressing a horizontal spring by #40 cm#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 18 kg# is lying on a surface and is compressing a horizontal spring by #60 cm#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 18 kg# is lying on a surface and is compressing a horizontal spring by #60 cm#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 18 kg# is lying on a surface and is compressing a horizontal spring by #60 cm#. If the spring's constant is # 18 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 18 kg# is lying on a surface and is compressing a horizontal spring by #30 cm#. If the spring's constant is # 1 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying on a surface and is compressing a horizontal spring by #30 cm#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 # #kg# is lying on a surface and is compressing a horizontal spring by #10 # #cm#. If the spring's constant is # 9# #kgs^-2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying on a surface and is compressing a horizontal spring by #10 cm#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 15 kg# is lying on a surface and is compressing a horizontal spring by #10 cm#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 15 kg# is lying on a surface and is compressing a horizontal spring by #2 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #2 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #2 m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #60 c m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying still on a surface and is compressing a horizontal spring by #60 c m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying still on a surface and is compressing a horizontal spring by #60 c m#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying still on a surface and is compressing a horizontal spring by #80 c m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 3 kg# is lying still on a surface and is compressing a horizontal spring by #80 c m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 2 kg# is lying still on a surface and is compressing a horizontal spring by #80 c m#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 2 kg# is lying still on a surface and is compressing a horizontal spring by #70 c m#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 2 kg# is lying still on a surface and is compressing a horizontal spring by #70 c m#. If the spring's constant is # 3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 14 kg# is lying still on a surface and is compressing a horizontal spring by #70 c m#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 14 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 14 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 7 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 1 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 7 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 1 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 15 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 15 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying still on a surface and is compressing a horizontal spring by #1 m#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying still on a surface and is compressing a horizontal spring by #3/2 m#. If the spring's constant is # 2 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 12 kg# is lying still on a surface and is compressing a horizontal spring by #3/2 m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #3/2 m#. If the spring's constant is # 6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #3/2 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 5 kg# is lying still on a surface and is compressing a horizontal spring by #5/2 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 25 kg# is lying still on a surface and is compressing a horizontal spring by #5/2 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 25 kg# is lying still on a surface and is compressing a horizontal spring by #5/3 m#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 16 kg# is lying still on a surface and is compressing a horizontal spring by #5/3 m#. If the spring's constant is # 9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 16 kg# is lying still on a surface and is compressing a horizontal spring by #5/3 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 16 kg# is lying still on a surface and is compressing a horizontal spring by #2/3 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 9 kg# is lying still on a surface and is compressing a horizontal spring by #2/3 m#. If the spring's constant is # 4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 9 kg# is lying still on a surface and is compressing a horizontal spring by #2/3 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 6 kg# is lying still on a surface and is compressing a horizontal spring by #2/3 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 6 kg# is lying still on a surface and is compressing a horizontal spring by #3/4 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of # 6 kg# is lying still on a surface and is compressing a horizontal spring by #1/4 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #1/4 m#. If the spring's constant is # 8 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #1/4 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #1/4 m#. If the spring's constant is #6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #1/4 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #1# #kg# is lying still on a surface and is compressing a horizontal spring by #1/4# #m#. If the spring's constant is #3# #kgs^-2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #1 kg# is lying still on a surface and is compressing a horizontal spring by #1/3 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #1 kg# is lying still on a surface and is compressing a horizontal spring by #1/3 m#. If the spring's constant is #6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #12 kg# is lying still on a surface and is compressing a horizontal spring by #1/3 m#. If the spring's constant is #6 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #12 kg# is lying still on a surface and is compressing a horizontal spring by #1/3 m#. If the spring's constant is #4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #12 kg# is lying still on a surface and is compressing a horizontal spring by #3 m#. If the spring's constant is #4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #7 kg# is lying still on a surface and is compressing a horizontal spring by #5/4 m#. If the spring's constant is #4 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #7 kg# is lying still on a surface and is compressing a horizontal spring by #5/4 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #8 kg# is lying still on a surface and is compressing a horizontal spring by #5/4 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #8 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #3 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #8 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #12 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #8 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #9 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #8 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #1 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #10 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #1 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #10 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #24 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #15 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #24 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #15 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #15 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #16 kg# is lying still on a surface and is compressing a horizontal spring by #5/6 m#. If the spring's constant is #15 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #16 kg# is lying still on a surface and is compressing a horizontal spring by #7/8 m#. If the spring's constant is #15 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #16 kg# is lying still on a surface and is compressing a horizontal spring by #7/8 m#. If the spring's constant is #12 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #7/8 m#. If the spring's constant is #12 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #7/8 m#. If the spring's constant is #16 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #4 kg# is lying still on a surface and is compressing a horizontal spring by #5 /8 m#. If the spring's constant is #16 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #3 kg# is lying still on a surface and is compressing a horizontal spring by #5 /8 m#. If the spring's constant is #16 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- An object with a mass of #7 kg# is lying still on a surface and is compressing a horizontal spring by #5 /8 m#. If the spring's constant is #16 (kg)/s^2#, what is the minimum value of the surface's coefficient of static friction?
- What are some forces that would change the motion of a bicycle traveling along a road?
- Does it require more force to start an object sliding or to keep it sliding?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #12 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #12 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #12 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/8 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #π/6 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #2 m# down a ramp, with an incline of #π/6 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #14 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #14 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #7 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #12 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #12 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #2 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #2 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #10 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/3 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #15 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #16 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #7 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/4 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #7 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #18 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #8 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #pi/12 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #14 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #11 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #11 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #pi/6 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #7 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #1 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #9 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #1 1m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #15 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #16 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #16 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #8 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(3pi)/8 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #18 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #16 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #14 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #6 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #17 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #13 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #11 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #3 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #4 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #6 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #5 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #1 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #2 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #4 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #12 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #19 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #25 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #3 m# down a ramp, with an incline of #(pi)/3 #, and then slides horizontally on the floor for another #25 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(pi)/6 #, and then slides horizontally on the floor for another #21 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #5 m# down a ramp, with an incline of #(pi)/6 #, and then slides horizontally on the floor for another #24 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/6 #, and then slides horizontally on the floor for another #24 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/6 #, and then slides horizontally on the floor for another #24 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #2 m# down a ramp, with an incline of #(pi)/12 #, and then slides horizontally on the floor for another #24 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #2 m# down a ramp, with an incline of #(pi)/12 #, and then slides horizontally on the floor for another #23 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #9 m# down a ramp, with an incline of #(pi)/12 #, and then slides horizontally on the floor for another #32 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- An object, previously at rest, slides #7 m# down a ramp, with an incline of #(pi)/12 #, and then slides horizontally on the floor for another #32 m#. If the ramp and floor are made of the same material, what is the material's kinetic friction coefficient?
- Can someone help verify the answer?
- Question #33a3c
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,000 N#. If the plane's incline is #pi/3 # and the coefficient of friction is #2/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,000 N#. If the plane's incline is #pi/3 # and the coefficient of friction is #2/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,000 N#. If the plane's incline is #pi/3 # and the coefficient of friction is #1/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,000 N#. If the plane's incline is #pi/3 # and the coefficient of friction is #4/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #pi/3 # and the coefficient of friction is #4/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #4/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #6/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #3/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,200 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #3/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,200 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #3/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,200 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #4/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,600 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #9/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,600 N#. If the plane's incline is #pi/8 # and the coefficient of friction is #9/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,600 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #9/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #9/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #7/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,500 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #7/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,500 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #1/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,500 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #1/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,800 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #1/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,800 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #5/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,800 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #9/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,800 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #9/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,800 N#. If the plane's incline is #(3 pi )/8 # and the coefficient of friction is #9/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,800 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #9/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,800 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #3/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,800 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #3/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,400 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #5/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,400 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #5/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,700 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #7/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,700 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #8/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,700 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #8/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,600 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #8/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,600 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #7/6 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #(2 pi )/3 # and the coefficient of friction is #7/6 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #7/6 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #14/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,200 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #14/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,200 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #4/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,800 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #4/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #5,800 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #4/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #6,800 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #4/5 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,000 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #9/8 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,000 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #3/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,400 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #3/4 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,200 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #3/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #3/7 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #7/6 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(5 pi )/8 # and the coefficient of friction is #7/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(5 pi )/12 # and the coefficient of friction is #7/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,500 N#. If the plane's incline is #(5 pi )/12 # and the coefficient of friction is #5/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #3,600 N#. If the plane's incline is #(5 pi )/12 # and the coefficient of friction is #5/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,600 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #5/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #5/12 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #4,500 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #5/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,500 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #5/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,500 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #1/3 #, what is the maximum mass that can be pulled up at one time?
- A truck pulls boxes up an incline plane. The truck can exert a maximum force of #2,200 N#. If the plane's incline is #(7 pi )/8 # and the coefficient of friction is #1/3 #, what is the maximum mass that can be pulled up at one time?
- How do you determine the minimum stopping distance of a motorcycle, given its velocity and the kinetic coefficient of friction?
- On a flat surface a 25kg crate is pushed at a constant velocity with a force of 50N. Determine the coefficient of friction. What would the acceleration on the crate be if the applied force was doubled?
- A crate with a mass of 12kg is sliding across the floor with a velocity of 8.8m/s. If the coefficient of kinetic friction is 0.16, how far will it slide before coming to rest?
- A force of 65N is required to keep a 16kg block sliding across a horizontal surface at a constant speed of 5m/s. What is the coefficient of kinetic friction on the surface?
- Three slabs are stacked vertically with the lowest slab being on wheels as shown below. An applied force of #44N# acts horizontally on the bottom slab. How do you find the answers to the following questions?
- Four airline baggage carts are coupled as shown in the figure to make a "train"; each has a mass of #250kg#. How do you find the answers to the following questions?
- In a pulley system, #m_1# is #2.0kg# and #m_2# is #1.0kg#. The coefficient of kinetic friction between #m_1# and the table is #mu_k=0.15#. What is the acceleration of the pulley system?
- Boxes A and B are attached by a rope. They are on a platform floor attached to a helicopter that is falling. Box A is pulled #35^@# to the surface. What is the tension between A and B as they slide horizontally on the platform?
- A box with a mass of #4 kg # and initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with a mass of #2 kg # and initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with a mass of #2 kg # and initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with an initial speed of #5# m/s is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/3 # and an incline of #pi /12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/3 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/5 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/5 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/5 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/4 # and an incline of #pi /8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/4 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/3 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #5# #ms^-1# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /6 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/5 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/2 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/2 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/2 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/2 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #pi /4 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #pi /3 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/6 # and an incline of #pi /3 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/6 # and an incline of #pi /3 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/6 # and an incline of #pi /3 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/6 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/3 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/7 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/7 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/7 # and an incline of #(3 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/7 # and an incline of #(5 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(5 pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/4 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/4 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/3 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/5 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/5 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/5 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/2 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/2 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/2 # and an incline of #(5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/4 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #7/4 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/4 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #3/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/2 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/3 # and an incline of #(2 pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #4 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #(3 pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #(3 pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #1 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #(3 pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #9 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/4 # and an incline of #(3 pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #5 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/3 # and an incline of #(3 pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/7 # and an incline of #( pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #2 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/7 # and an incline of #( pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #12 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/7 # and an incline of #( pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #8/7 # and an incline of #( pi )/4 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #( pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/6 # and an incline of #( pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/6 # and an incline of #( pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/3 # and an incline of #( pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/3 # and an incline of #( pi )/3 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #1/3 # and an incline of #( pi )/6 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/3 # and an incline of #( pi )/6 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/3 # and an incline of #( pi )/6 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/5 # and an incline of #( pi )/6 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/5 # and an incline of #( pi )/6 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #( pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #9/5 # and an incline of #( pi )/8 #. How far along the ramp will the box go?
- A box with an initial speed of #8 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #9/5 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #9/5 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #4/5 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #6 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/5 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #2/7 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #7 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/7 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- A box with an initial speed of #3 m/s# is moving up a ramp. The ramp has a kinetic friction coefficient of #5/7 # and an incline of #( 5 pi )/12 #. How far along the ramp will the box go?
- Question #afa31
- Question #fe6a4
- Two crates, of mass 65 kg and 125 kg, are in contact and at rest on a horizontal surface, A 650-N force is exerted on the 65 kg crate, the coefficient of kinetic friction is 0.18. What is the acceleration of the system?
- Question #8f010
- What is the acceleration of a body that goes from #"40 m/s"# to rest over a distance of #"20/100 m"#?
- Could you solve this?
- What is the acceleration of the system and the tension in the ropes joining the masses in the following diagram?
- What is the angular range for #theta#, for which the masses will not move in the following diagram?
- Question #31590
- Question #44f82
- Question #b80f7
- Question #65642
- Question #96660
- Question #39b14
- Question #fca15
- Question #bb9d5
- Question #c80ae
- Freebody diagram help please!?
- Question #a5256
- Question #8c8b6
- Question #b79c6
- Question #6e844
- Question #a8cb9
- How can friction cause motion?
- How is the force of friction related to the normal force?
- A 2.0m rectangular uniform slab of concrete is supported on 7 cylindrical rollers. If the slab is pushed to the right, how far can it move before it's center of gravity is to the right of the 7th roller, at which point it tips?
- Question #6d964
- Question #67e0f
- Is running an example of kinetic or static friction?
- What is your brother’s static coefficient of friction and his kinetic (sliding) coefficient of friction?
- Question #4fdc1
- A 2.50 kg wood block is pressed against a vertical wood wall by a force applied 34.9° to the horizontal. If the block is initially at rest, and μs=0.493, what force would you need to apply to begin moving the box up the wall?
- A student pushes a 25 kg crate which is initially at rest with a force of 160 N over a distance of 15 m. If there is 75 N of friction, what is the final speed of the crate?
- Knowing the coefficient of kinetic friction between the two materials (0.03), he quickly calculates the normal force. What is it (in N)?
- A solid sphere of mass m and radius R is rigidly enclosed in solid hollow shell of same mass m & radius R. This body is rolling down a rough incline of inclination #pi/4#.If minimum value of coefficient of static friction is #x/23#. Find value of #x#?
- Question #aeffb
- Question #30d1d
- Question #5fc94
- A 60.0 kg skier with an initial speed of 12.0 m/s coasts up a 2.50 m high rise as shown in the following figure. Find her final speed at the top (in m/s), given that the coefficient of friction between her skis and the snow is 0.0800?
- Question #56a09
- Horizontal force of 50N accelerates a block of mass 3.0 kg up an incline with an A=2.0ms^-2. The angle with horizontal is 30^o. Find a) force of friction between the box and the incline b) the coefficient of kinetic friction between box and the incline?
- Coefficient of friction?
- What is the reaction force of Friction?
- If #µ = 0.40# and #mg = 20N#, what minimum force F will keep the box from falling?
- Question #06104
- While walking in ice one should take smaller steps to avoid slipping .This is because smaller steps ensure ?
- Types of friction?