The system is released from rest with the cable taut, and the homogeneous cylinder does not...
The system is released from rest with the cable taut, and the homogeneous cylinder does not slip on the rough incline. Determine the angular acceleration of the cylinder and the minimum coefficient of friction for which the cylinder will not slip. The angular acceleration is positive if counterclockwise, negative if clockwise. 7.5 kg 0.42 m 10.6 kg Answers: 0 rad/s2 s/min
The system is released from rest with no slack in the cable and with the spring stretched 190 mm. Determine the distances traveled by the 4.1-kg cart before it comes to rest (a) if m approaches zero and (b) if m= 2.9 kg. Assume no mechanical interference and no friction. The distance s is positive if up the incline, negative if down. k = 165 N/m 4.1 kg 230 m Answers: (a) m = 0, s= i (b) m =...
The solid homogeneous cylinder is released from rest on the ramp. Determine the magnitudes of the acceleration of the mass center G and the friction force exerted by the ramp on the cylinder. W 6.4 1b 7.6" », 0.23 ?&-0.18 39 Answers: ac =T1361 Uft/sec F= T1.32 lb
the solid homogeneous cylinder is released form rest on the ramp if theta=30 degrees Ms=.2 and Mk=.1, w=15lb, r= 8" determine the a. magnitude of the acceleration of the mass centered at g b. the magnitude of the frictional force exerted by the ramp on the cylinder c. the minimum value of static frictional coefficient Ms to insure pure rolling and no slipping
3. The solid homogeneous cylinder is released from rest on the ramp. A steady wind force of 5 lb acts on the cylinder as it rolls or slips (to be determined) down the slope. The wind force acts through the mass center, G in a direction parallel to the slope, i.e., opposite to the frictional force, F W 20 lb 12" wind 5 Ib If 0 20°, H, 0.35 and 0.25 (a) Draw the freebody diagram (b) Determine the magnitude...
The length of the A 2 kg block is released from rest at the top of a rough 40° inclined plane incline is 10 m. As the block slides down the incline, its acceleration is 3.0 m/s incline 1s 10 m. incline. Draw the free body diagram. a) Determine the magnitude of the force of friction acting on the bloc b) W hat is the speed of the block when it reaches the bottom of the inclined plane?
Problem #1 (3+1+1+1-6 points) A thin-walled hollow cylinder is released from rest and rolls down the hill that slops downward at 500 from the horizontal without slipping. The mass of the cylinder is 3 kg and its radius is 0.5 m. hemomento mertiited linder is 1 -M Re Find: (a) the minimum value of the coefficient of static friction between the cylinder and the hill for no slipping to occur (1 point); (b) using the answer to part (a) calculate...
The system is initially moving with the cable taut, the 10-kg block moving down the rough incline with a speed of 0.130 m/s, and the spring stretched 25 mm. By the method of this article, (a) determine the velocity v of the block after it has traveled 108 mm, and (b) calculate the distance d traveled by the block before it comes to rest. 10 kg >K= 155 N/m Up = 0.18 7 460 Answers: (a) After it has traveled...
e susJrom rest at the top of the well and falls for before hitting the water, how far does it fall? Moment of inertia of cylinder 1-% MR 2. A ladder is leant against the wall. The coefficient of the static friction p. between the ladder and the wall is 0.3 and the coefficient of the static friction g, between the ladder and the floor is 0.4. The center of mass of the ladder is in the middle of it...
Chapter 3, Practice Problem 3/115 The quarter-circular hollow tube of circular cross section starts from rest at time t = 0 and rotates about point o in a horizontal plane with a constant counterclockwise angular acceleration 7 = 2.9 rad/s. At what time t will the 0.57-kg particle P slip relative to the tube? The coefficient of static friction between the particle and the tube is us = 0.89. tes 58 0.79 m Answer: t = the tolerance is +/-2%