3 To apply Equilibrium Equation of particle & rigid body 200 N/m² Determine the x,y,z components...
Problem 1 Equilibrium of a Body in 3D (25pts) Determine the components of reaction at the ball-and-socket joint A and the tension at cables BC and BD necessary for equilibrium. Show Free body diagrams and all calculations for full credit. | 3 m ce 2 m 3 m BL X- 5 m (3 m Ē = 100î – 200Â N 400 N
1) Determine the magnitude of the y component of the reaction at C. 2) Determine the magnitude of the z component of the reaction exerted on the rod at C. 3) Determine the magnitude of the z component of the reaction on the rod at B. 4)Determine the magnitude of the x component of the reaction on the rod at B. 5) Determine the magnitude of the z component of the reaction on the rod at A. 6) Determine the...
Homework21 - 3D Rigid Body Equilibrium II Due: Monday, 7 Oct 2019 HW21.1 - The boom AB is held in place by a ball-and- socket joint and a pulley and cord system as shown. Determine the axial component (y component) of the reaction at A. B 5 ft- 5f 1200 lb 2 ft TB 3ft & 300 lb HW21.2 -The horizontal shelf ABCD is held in place by hinges at A and B. There are typically two additional supports which...
Determine the x,y, and z components of reaction at point D using scalar notation. Problem 5.69 The rod is supported by ball-and-socket joint D and cables AB, AC Suppose that F = 750 N and x = 6 m. (Figure 1) Express your answer to three significant figures and include the appropriate units. Tac = 1260 N Submit Previous Answers ✓ Correct Part C Determine the x, y, and z components of reaction at support D using scalar notation. Express...
5-L1 Equilibrium of a Rigid Body Learning Goal: To analyze a rod assembly in three-dimensional space and determine the support reactions by using the equations of equilibrium for a rigid body The rod assembly shown has smooth journal bearings at A and C. The forces F1 = 500 N F = 450 N F = 490 N. and F, 800 N are applied as shown in the figure. The geometry of the rod assembly is given as a = 0.950...
Determine the components of reaction at the ball-and-socket joint A and the tension at cables BC and BD necessary for equilibrium Show Free body diagrams and all calculations for full credit. 3 m150 N/m 2 m 75 N/m 4 m 400 N
3. 3D RIGID BODY Determine the support reactions at O (ball-and-socket) and the tensions in cables AB and AC. (Helpful Hints: Point Clies on the xy-plane, which means the z-coordinate for Cis 0. The rod is vertical.) Dimensions in meters 2 B 20 KN 21 X
3. 3D RIGID BODY Determine the support reactions at O (ball-and-socket) and the tensions in cables AB and AC (Helpful Hints: Point Clies on the xy-plane, which means the z coordinate for C is 0. The rod is vertical.) Dimensions in meters 20 KN ---- 21 3 .
3. 3D RIGID BODY Determine the support reactions at O (ball-and-socket) and the tensions in cables AB and AC. (Helpful Hints: Point Clies on the xy-plane, which means the z-coordinate for C is 0. The rod is vertical.) Dimensions in meters B 20 KN
Q. 2 Rod AB shown in the figure below is subjected to the 200-N force; in the negative z-direction at point C. Determine the reactions at the ball-and-socket Joint A and the tension in the cables BD and BE for equilibrium. Cable BD is parallel to y-axis and Cable BE is parallel to x-axis. (2 points) 1.3 m 2 m 1.5 m 1 m D 200 N -2 m B E