Problem # 2 (10 Marks) The 10-kg rod AB is released from rest when 6 is...
Question 1 (10 marks) The piston rod of the hydraulic cylinder gives A a constant vertical velocity vA for an interval of motion Roller B is confined to move in the horizontal guide. Determine the angular acceleration of link AB in
Question 1-18 Marks Shown below is a system witha slender bar that moves under its own weight. Point B is restricted to moving in the smooth vertical groove. Point A will move in the smooth horizontal groove and compresses the spring as the bar falls Determine the angular velocity of the bar in terms of 0 B A www.ww 450 mm 600 mm 600 mm Question 1-18 Marks Shown below is a system witha slender bar that moves under its...
the block is released from rest. the vertical rod is smooth.. determine its velocity after the block falls H. underfomed spring = 30 cm mass of block = 23 kg H= 43 cm please determine spring energy at start and spring energy at end clear handwriting or typed please thank you k-100 N/m 30 cm Sprinne
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?
2 m Collar mass = 0.6 kg. It is released from rest at point A and moves down along frictionless vertical rod. Neglect size of collar and diameter of rod. Spring has natural length of 1.6 m and a spring constant of k = 30 N/m. Draw FBD of collar at position between A and C. Specify conditions where collar achieves max vertical displacement s. Use work and energy methods to determine max displacement s. S k = 30 N/m...
Given: The 80-kg rod is released from rest at 6=15 and moves to 8-45, while the spring remains vertical. The spring is unstretched when 8-0 Find: a) Are all forces acting on OA conservative? Why or why not? 0 k = 150 N/m 3 m А b) Find the angular velocity, w, of the rod. Show all work, and draw appropriate diagrams. rad/s c) What is the spring force when 6=45°? N d) Select one possible method to solve for...
Given: The 80-kg rod is released from rest at 6=15 and moves to 8-45, while the spring remains vertical. The spring is unstretched when 8-0 Find: a) Are all forces acting on OA conservative? Why or why not? 0 k = 150 N/m 3 m А b) Find the angular velocity, w, of the rod. Show all work, and draw appropriate diagrams. rad/s c) What is the spring force when 6=45°? N d) Select one possible method to solve for...
Sample Problem 6. The 30 kg slender rod is released from rest when θ-00 (when rod OA is in the horizontal position). The spring is unstretched at θ-00. A constant clockwise moment of 10 N-m is applied to the rod. A force, P, of 20 N is applied and is always perpendicular to the rod. Determine the angular velocity of the rod when θ- 750. (Use the work-energy or conservation of energy method). 2 m 10 N-mm k80 N/m 1.5...
Question 4 A homogeneous slender rod AB of mass m and length L is held in the position shown in Figure Q4. The end A of the rod is free to move along the smooth horizontal surface. The end B of the rod is connected to rod BC of negligible mass. The rod AB is released from rest in the position shown when 0 = 60°. If the acceleration of end B is ā, = -a,j, derive the expressions in...
Given: Blocks A and B (having masses of 2m and m, respectively) are connected by rigid, massless rod AB of length L. Block A is constrained to move along a smooth vertical guide, and B moves along a smooth, horizontal surface. The system is released from rest when A is at a height of hi ABOVE the path of B. Find: Determine the speed of block A when A has dropped to a position that is at a distance of...