Block B is released from rest. Determine the velocity of B and A once B has...
Problem 3: Determine the acceleration of block B, acceleration of block A, and the tension in the cable if the system is released from rest. The coefficient of static and kinetic friction between block A and the wedge surface are js = 0.2 and uk = 0.15, respectively. Neglect masses of the pulleys and associated friction in the pulleys. Consider ma = 15 kg and mp = 8 kg. FBDs and kinetic diagrams for blocks A and B is mandatory....
2. Two blocks of mass mA 40 kg and m-35 kg are initially at rest. Neglecting the masses of the pulleys and the effeet of friction in the pulleys, and given coefficients of friction between block A and the horizontal surface are As -0.25 and 0.15 determine, a) whether or not the blocks will move b) if motion is impending, find the acceleration of each block c) the tension in the cable
Question 3. A block A, having a mass of 20-kg, is released from rest and slides down an incline with coeffici an incline with coefficient of static d kinetic friction of 0.25 and 0.10, respectively. When it reaches the bottom of the ramp, it slides ally onto the surface of a 10-kg cart for which the coefficient of static and kinetic friction between Question 3. A block A, having a mass of 20-kg, is released from rest and slides down...
Determine the velocity of the 60-1b block A if the two blocks are released from rest and the 40-16 block B moves 2 ft up the incline. The coefficient of kinetic friction between both blocks and the inclined planes is 0.10. B 60° 30°
Blocks A and B are released from rest when the spring is unstretched. Blocks A and B have masses ma = 2 kg and mp = 3 kg and the linear spring has stiffness k = 7 N/m. If all sources of friction are negligible, determine the velocity of block A after block Bhas dropped 2.2 m downward. Assuming that A never leaves the horizontal surface shown and the cord connecting A and B is inextensible. The answer needs to...
Q4) Determine the required mass of block A so that when it is released from rest it moves the 5-kg block B 0.75 m up along the inclined plane, where the coefficient of friction is 0.15, in 2 second. Neglect the mass of the pulleys and cords. 60°
Block A has a mass of 2.87 kg and block B has mass 1.98 kg.
Block B is at the height ℎ = 1.50 m when the blocks are released
from rest. Determine the speed of block B just before it bumps into
the ground:
(a) if block A slides frictionlessly along its horizontal
planet; and
(b) if the sliding friction number between block A and the
ground is 0.18.
(Assume that the string and pulley have negligible masses and...
Kinematics and Forces: The mass of block A is 10 kg and the mass of block B is 15 kg. The coefficients of friction between block B and the ground are H = 0.3 and = 0.2. In your calculations, assume frictionless, massless pulleys and determine the acceleration of blocks A and B.
Two identical blocks are released from rest. Neglecting the mass of the pulleys and knowing that the coefficient of friction is 0.20, determine by the principle of work and energy:
(a) The speed of Block B after having descended 1 m, in the direction of the inclined plane.
(b) The tension in cable B.
(c) The acceleration of block B.
2 kg 2 kg | 72° 68
2 kg 2 kg | 72° 68
A block of mass m-5kg is released from rest at the top of an incline which makes an angle 0= 30° with the horizontal. The coefficient of sliding friction between the block and the plane is P02 d 2 m 0.2. 2m down the incline: After the block has traveled d m5 kg a) How much work has gravity has done on the block? 8 30 b) How much work has the Normal Force has done on the block? c)...