The coefficients for friction are m s = 0. 35 and m
k = 0. 25 between all surfaces of contact. Determine the
smallest force P required to start the 25-kg block
moving if cable AB (a) is attached as shown, (b)
is removed
The coefficients of friction are ?? = 0.4 between all
surfaces of contact. Assuming the
pulley is frictionless,
a. Determine the smallest force P required to start the 45-kg block
moving if the cable is
attached as shown.
b. Determine the smallest force P required to start the 45-kg block
moving if the cable is
removed from the blocks. Will block A slip with respect to block B
or will it move
with block B?
The coefficients of friction are...
Please include fbd
The coefficients of friction are 0.4 and 14-0.3 between all surfaces. Determine the smallest force F required to start the 30 kg block moving if cable AB is attached as shown, and 0- 20 k8
Statics
7.2 The coefficients of friction between the block and the rail are s 0.30 and pk 0.25. Find the magnitude and direction of the smallest force P required: (e) to start the block up the rail, (b) to keep it from moving down. HINT. First, visualize graphically (i.e. make a sketch) how much ? must be for P to be minimum 500 N ANS. (a) P 392 N 51.7 (b) P = 157 N 18.30
Using the coefficients of static friction shown, determine the
smallest mass of block A so that it will prevent sliding motion of
B down the plane.
A cable is attached to the 20-kg plate B, passes over a fixed peg at C, and is attached to the block at A. (Figure 1) Figure < 1 of 1 > Mc = 0.3 MA = 0.2 MB = 0.3 30°
The three blocks have weights of WA = 60 lb, WB = 40 lb, and WC
= 20 lb. If the coefficients of static friction at the surfaces of
contact are UAB = 0.4, UBC = 0.3, and UCD = 0.2, determine (a) the
smallest horizontal force P needed to move block C, and (b) the
tension in the cable.
Cable attached to the wall and block A a.) P= b.) T = A B Р С D
The coefficients of friction between a block of mass 1.5 kg and a surface are ?s = 0.60 and ?k = 0.40. Assume the only other force acting on the block is that due to gravity. What is the magnitude of the frictional force (in newtons) on the block if the block is at rest and the surface is inclined at 15o? Use g = 9.79 m/s2.
A 24-N block rests on a horizontal surface.
The coefficients of static and kinetic friction between the surface
and the block are ?s=0.76 and ?k=0.34. A horizontal string is
attached to the block and a constant tension T is maintained in the
string.
blem 5-23a: A 24 N block rests on a horizontal surface. The coefficients of static and kinetic friction between the surface and the block are us=0.76 and μk=0.34. A horizontal string is attached to the block and...
The figure below shows two masses m,=4.5 kg and m2=4.1 kg which are connected by a cable and are in contact with frictionless surfaces as shown. The ramp makes an angle 0=35° with the horizontal and m is acted on by a force of magnitude F=44 N which acts up the ramp. What is the tension in the cable? m2 m 1 e Select one: 5.48 N C4.39 N 7.67 N 10.96 N C17.54 N The figure below shows two...
The coefficients of friction between a 1.5 kg block and a surface are μs = 0.50 and μk = 0.40. Assume the only other force acting on the block is that due to gravity. What is the magnitude of the frictional force (in newtons) on the block if the block is moving and the surface is inclined at 30o? Use g = 9.79 m/s2.