The 2.1-kg collar travels with negligible friction on the
vertical rod under the action of the constant force P = 60
N. If the collar starts from rest at A, determine its
speed as it passes point B. The value of R is 2.9
m.
The 2.1-kg collar travels with negligible friction on the vertical rod under the action of the...
The 1.1-kg collar travels with negligible friction on the
vertical rod under the action of the constant force P = 23
N. If the collar starts from rest at A, determine its
speed as it passes point B. The value of R is 2.0
m.
R
The 2.5-kg collar travels with negligible friction on the vertical rod under the action of the constant force P = 59 N. If the collar starts from rest at A, determine its speed as it passes point B. The value of R is 2.8 m. Answer: VB = m/s
2. The 7-kg collar slides with negligible friction on the fired vertical shaft When the collar is relessed from rest at the bottom posyon shown it moves up the shaft under the action of the constant force F= 200 450 mm N applied to the cable Calculate the stiffness which the spring must have if its maximum compression is limited to 75 mm The position of the small pulley at Bis fixed
A 2.5-lb collar is attached to a spring and slides without friction along a circular rod in a vertical plane. The spring has an undeformed length of 4 in and a constant k = 20 lb/ft. Knowing that the collar is at rest at C and is given a slight push to get it moving, determine (a) the velocity of the collar as it passes through point A, and (b) the force exerted by the rod on the collar as...
A 1-lb collar is attached to a spring and slides without friction along a circular rod in a vertical plane. The spring has an undeformed length of 5 in. and a constant k-25 lb/ft. Knowing that the collar is released from being held at A determine, the speed of the collar and the normal force between the collar and the rod as the collar passes through B. (Round the final answer to two decimal places.) 3 in 7 in The...
The 1-kg collar is released from rest at A and travels along the smooth vertical guide. (a)Determine the speed of the collar when it reaches position B. The spring has an unstretched length of 250mm. (b)Also, find the magnitude of the normal force exerted on the collar at this position.
A3 lbf collar is attached to a spring and slides without friction along a circular rod which lies in a horizontal plane. The spring has a constant k = 1.5 lbflin and is undeformed when the collar is at B. If the speed of the collar is 6 ft/s when it passes through point D, determine the speed of the collar (in ft/s) as it passes point B. To 3 lb B D 12 in. 5 in.
2. The 4-kg collar A is sliding around a smooth vertical guide rod. At the instant shown the speed of the collar is 5 m/s, which is increasing at 2 m/s'. At this instant determine: A. The normal reaction of the guide rod on the collar, and V = 5 m/s B. The magnitude of force P. 20 0.5 m
A 20 lbf collar slides without friction along the vertical rod from position 1 to position 2 as shown below. The spring attached to the collar has an undeformed length of 4 inches and a spring constant of 3 lbf/in. If the collar is released from rest at 1, determine its velocity at position 2 in ft/s. & in. 6 in. 12
A 20 lbf collar slides without friction along the vertical rod from position 1 to position 2 as shown below. The spring attached to the collar has an undeformed length of 4 inches and a spring constant of 3 lbf/in. If the collar is released from rest at 1, determine its velocity at position 2 in ft/s. 8 in. 1 WWWWWW 6 in. 1