In the figure below, AC is a cable. A) Find the reactions at B B) What...
4.) Cable DE holds a simply-supported beam with an internal hinge at B. Find the support reactions at hinge B 1 ft 9 ft 10 ft 2 k/ft 10 ft 30 ft
Problem 3.2 Determine the moment around B from the cable, and the perpendicular distance from point B to cable AC Student ID Number: Given Length (ft) 10 Cy-5+C Tension in cable500 lbs Break force into their x, y, z components using unit vector uni AC vector Fx AX dz chec 2.Calculate moments of forces about (0,0) M-rxFrx ry rz Fz Mi Mk- Total M 3. Find the perpendicular distance from point A to the cable BC DistForce
Problem 3.2 Determine...
Problem 2 (18 points): The structure shown below consists of the beam AC which supported by a pin at A and a link at B. 3 kips/ft 1.6 kips/ft А D a) Determine the reactions. (3 pts) b) Write the equations for shear and moment for the region BC (8<x<12). Set the origin at point A. (6 pts) c) At x=4 ft, make a cut section and calculate internal forces. (3 pts) d) Locate the points of zero shear between...
Q5. The cantilever beam, AC, is subjected to the load case shown in Figure 5. For the loading shown, do the following: [10 Marks] a) Calculate the magnitude and direction of the reactions at A b) Using the Macaulay function, determine the displacement in y of the point B of the beam (x 2.4 m from the support at A) [10 Marks] c) Determine the slope at B. [5 Marks] The beam has a Young's modulus of E-200 GPa and...
Statics Problem
Problem #5 In the Diagram below, there are 2 forces acting on the pipe. a) Moment at Point O, (10 pts) b) Moment about the line OA (Section between the origin and 1" pipe joint)(10 pts) c) Moment about the line AO (5 pts) F2 1-10i +25j + 20k) Ib 2 ft 0 1.5 ft 2ft 2 f Problem #6( The Beam in the Figure below is subjected to 3 forces. Determine by any method of choice: a)...
25 points For the beam shown below: (i) Determine the reactions RA and RD. (ii) Sketch the (a) shear, and (b) bending moment diagrams under the free body diagram. (iii) What is (a) the maximum moment on the beam and (b) its location. M=4500 lbft 3000 lb 3ft 1
Draw shear and moment diagrams for the beam shown below 600 lb 200 lb/ft AL B — 6 ft — C + D 3ft-*—3ft-
Problem 1 For the structure shown in Figure 1, complete the following: A. Calculate the reactions B. Draw axial, shear, and bending-moment diagrams C. Calculate the internal member forces (P,V, M) at r = 62 in. w = 0.75 k/ft 3 it 15 ft - Figure 1
For the beam shown, draw the reactions at supports A and B in
the positive direction, and also draw the shear and bending moment
in the positive direction on your FBD.
where w=23 kip/ft L=5 ft
find
w kip ft C A B L/3 ft L ft The shear equation across the beam. kip ENTER X 2 tries remaining. 1 point(s) possible The bending moment equation across the beam. kip.ft ENTER 3 tries remaining. 1 point(s) possible The internal shear...
16. For the beam shown below, a uniform load, two con team shown below, a uniform load, two concentrated loads, and a triangular los Pied as shown. The beam diagram is presented on both this pape and the next pas to help you as you answer the questions heta. Provide the following information 10 kips 18 kips 6 kips/it 3 kips/ft 3 ft 8 ft 4 24 24 3ft A 8. C. D. is this beam statically determinate? What are...