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The 0.2-16 bar is released from rest in the position shown. Find the angular velocity of...
The 0.2-lb bar is released from rest in the position shown. Find the angular velocity of the bar when it reaches a position 30° below horizontal. The spring has a stiffness of 4.5 lb/ft and an undeformed length of 2 in. (50) -5.00 in -3.00 in Owo A B с ud
The 15-kg slender bar OA is released from rest in the vertical position and compresses thespring of stiffness k = 20 kN/m as the horizontal position is passed. Determine the propersetting of the spring, by specifying the distance h, that will result in the bar having an angularvelocity ω = 4 rad/s as it crosses the horizontal position. What is the effect of x on thedynamics of the problem?
The 23 lb bar is released from rest in the horizontal position 1 and falls to position 2. In addition to the force exerted on it by its weight, it is subjected to a constant counterclockwise couple 33 ft lb Part A Determine the bar's counterclockwise angular velocity in position 2. (Figure 1) Express your answer with the appropriate units. igure 1 of 1 Value Units 4 ft Submit Request Answer 40° < Return to Assignment m Provide Feedback
The slender uniform bar with a weight of 9 lb can rotate in a
vertical plane with respect to a bolt B. A spring of constant k =
40 lb / ft and an undeformed length of 5 in is connected to the bar
as shown . If the bar is released from rest in the position shown,
determine after rotating 90 °:
A) The initial energy of the spring:
B) Final spring energy:
C) The velocity of the G...
The bar, WA=100[lb] and L=3[ft], shown in figure is initially in the vertical position. The bar is subjected to a couple moment of M=20 [lb-ft] and a force F=50[l b], which is always perpendicular to the end of bar. Also, the spring is attached to bar at distance L / 2 from point A, and has unstretched length of l0=1.2[ft]. The spring remains in horizontal position throughout the motion due to the roller guide at B. Determine angular velocity of...
The 20 lb bar is released from rest in the horizontal position 1 and falls to position 2. In addition to the force exerted on it by its weight, it is subjected to a constant counterclockwise couple M=50ftib Determine the bar's counterclockwise angular velocity in position 2. Ow = 3.45 rad/s w = 4.02 rad/s w = 4.20 rad/s w = 1.32 rad/S
The 6.0-lb bar is pinned at its center O and connected to a
torsional spring. The spring has a stiffness k = 5.6 lb?ft/rad , so
that the torque developed is M=(5.6?)lb?ft, where ? is in
radians.
If the bar is released from rest when it is vertical at
?=90?, determine its angular velocity at the instant
?=45?.
A slender 9 lb rod can rotate in a vertical plane about a pivot at B. A spring of constant k-30 lb/ft and of unstretched length 6 in. is attached to the rod as shown. The rod is released from rest in the position shown. 1) Determine its angular velocity after the rod has rotated through 45.(1 point) 2) Determine the reaction force at pivot point B after the rod rotated through 45. (1 point) 24 in 5 in. 4...
The system is released from
rest with the spring initially stretched 5.8 in. Calculate the
velocity v of the cylinder after it has dropped 1.5 in. The spring
has a stiffness of 3.5 lb/in. Neglect the mass of the small
pulley.
Chapter 3, Problem 3/142 (video solution to similar problem attached) XIncorrect The system is released from rest with the spring initially stretched 5.8 in. Calculate the velocity v of the cylinder after it has dropped 1.5 in. The spring...
A stick is released from rest when it is perfectly horizontal.
Assume its pivot is
frictionless. Use conservation of energy to nd an expression
for the angular velocity
of the stick when it reaches its vertical position. (Use: Irod
= 1/3*mL^2. Your answer
should be in terms of g and L.) For a stick of length 2.0 m,
what would be the nal
angular velocity?
A stick is released from rest when it is perfectly horizontal. Assume its pivot is...