The coefficient of static friction between the
m = 3.85-kg
crate and the 35.0° incline of the figure below is 0.325. What minimum force
F
must be applied to the crate perpendicular to the incline to
prevent the crate from sliding down the incline?
N
The coefficient of static friction between the m = 3.85-kg crate and the 35.0° incline of...
The coefficient of static friction between the 3.00 kg crate and the 33 degree incline of above Fig. is 0.250. What minimum force F(-N) must be applied to the crate perpendicular to the incline to prevent the crate form sliding down the incline?
The coefficient of static friction between them.3.20-kg rate and the 3.0 incline of the figure below is 0.250. What minimum force must be polied to the crate perpendicular to the indireto prevent the rate from sliding down the indine? Need Help?
The coefficient of static friction between the m =3.20 kg crate and the 35.0°incline of Figure P4.41 is 0.340. Whatminimum force must be applied to the crate perpendicular to the inclineto prevent the crate from sliding down theincline? NFigure P4.41
A 5 kg block rests on a 30 degree incline. The coefficient of static friction between the block and the incline is .20. How large a horizontal force must push on the block if the block is to be on the verge of sliding A) up the incline and B) down an incline Answer: A) 43 N B) 16.6 N What would be the work to get me to this answer?
A large crate is at rest on a horizontal floor. The coefficient of static friction between the crate and the floor is 0.500. A force F⃗ is applied to the crate in a direction 30.0∘ above the horizontal. The minimum value of F required to get the crate to start sliding is 410 N. Part A What is the mass of the crate? Express your answer with the appropriate units.
a box with a mass of m = 3.25 kg on a surface inclined at an angle of 35.0°. The coefficient of static friction between the box and the surface is 0.330. Find the minimum magnitude of the force F (in N), applied to the box in a direction perpendicular to the surface, that will prevent the box from sliding down the surface.
Figure 5 shows a crate has a mass of 50 kg and the coefficient of static friction between the crate and the plane is us = 0.25. (1) Determine the minimum horizontal force P required to hold the crate from sliding down the plane. (8 marks) Determine the minimum force P required to push the crate up the plane. (8 marks) (11) P 30° Figure Q5
Please help The mass of block in the figure is 9 kg. The coefficient of static friction between the block and the wall is 0.50. What minimum force "F" is required to prevent the block from sliding down the wall?
3. Th e coefficient of static friction between the 120-kg crate and the groundis 120-kg crate and the ground is He coeient of static friction between the 70-kg man's shoes and the ground is As0.45. Determine if the man can move the crate in Figure Q3 (15 marks) 30° Figure Q3
2) A 35.0 kg crate is being push across a horizontal floor with a force F = 150 N that makes an angle θ = 29.0° with the horizontal as illustrated in the figure below. Find the magnitude of the acceleration of the crate, given that the coefficient of kinetic friction between the crate and the floor is 0.20. 3) A 7.00 kg block is pressed against a vertical wall by a force (→F), as shown in the figure below....