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1. (25 pts.) For the beam shown: a. Calculate the reactions loads at: i. Wall A...
2. (25 pts.) For the beam shown: a. Calculate the reactions loads at: i. Pin support...
2. (25 pts.) For the beam shown: a. Calculate the reactions loads at: i. Pin support A ii. Roler B b. Find the Equations of Shear and Bending Moments for the intervals A-B & B-C c. Find the Shear values (V) and Bendinf moments (M) at: 50 lb/ft i. Points A ii. Point B iii. Point C iv. Also the location and Magnitud of the Maximum Bending Momentin d. Draw the Shear and Bending -20 ft — Moments Diagrams and...
A cantilever beam supports the applied loads and moments as shown. (a) Calculate the support reactions....
A cantilever beam supports the applied loads and moments as shown. (a) Calculate the support reactions. (b) Use the graphical method to construct the shear-force and bending moment diagrams for the beam. Also label the values of shear-force and bending=moment at all key points. 30 kN/m 25 kN 12 kN/m 80 kN.m х A В C D E F 1 m 3 m 1 m 1 m 1 m
1. (28 pts) A cantilever beam is subjected to the loads as shown in the figure....
1. (28 pts) A cantilever beam is subjected to the loads as shown in the figure. Va) Draw a free-body diagram and determine the supports at point 0. b) Draw shear and moment diagrams and find the values at key points (i.e. x = 0, 6 and 10 ft). If possible, please show your calculations. c) Find shear force V(x) and bending moment M(x) for () <x<6 ft. 12 10 kip 2 kip/ft skip سے 40 kip.lt 611 4 11...
25 points For the beam shown below: (i) Determine the reactions RA and RD. (ii) Sketch...
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
For the beam and loading shown, please (a) determine the reactions at A and C, (b)...
For the beam and loading shown, please (a) determine the
reactions at A and C, (b) draw the shear and bending moment
diagrams, and (c) find the maximum normal stress on the
beam.
2000 lb 200 lb/ft 4 ft 4 ft 6 ft
a. Draw a complete free-body diagram for the beam shown in Fig. 1. Must show and...
a. Draw a complete free-body diagram for the beam shown in Fig.
1. Must show and label x-y coordinate system, support reactions,
loads, and dimensions
b. Derive formulas for all support reactions using conditions of
equilibrium. Must show all work.
c. Using the student variables shown below, calculate beam
support reactions and draw shear and bending moment diagrams. To
receive full credit, support reactions and loads must be shown on a
free-body diagram. Each shear and bending moment diagram must...
9. A beam ABC is subjected to a combination of UDL, point loads and applied moments...
9. A beam ABC is subjected to a combination of UDL, point loads and applied moments as shown below. Draw to scale the shear force and bending moment diagrams. Label all local maximum and minimum values. Also sketch the deflected shape and indicate the location of any points of inflexion. (Ans: Moment at point D= 105kNm) 50 kNm 120 KN 20 kNm w = 10 kN/m BOTIT be 3 m 3 m 4 m Figure 5 Deflected shape Shear force...
1. For the simply supported beam subjected to the loading shown, Derive equations for the shear...
1. For the simply supported beam subjected to the loading shown, Derive equations for the shear force V and the bending moment M for any location in the beam. (Place the origin at point A.) a. b. Plot the shear-force and bending-moment diagrams for the beam using the derived functions c. Report the maximum bending moment and its location. 42 kips 6 kips/ft 10 ft 20 ft
A flanged wooden shape is used to support the loads shown on the beam. The dimensions...
A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape are shown in the second figure. Assume LAB = 6 ft, LBC = 2 ft, LCD = 2 ft, LDE = 4 ft, PC = 1700 lb, PE = 1750 lb, wAB = 610 lb/ft, b1 = 7 in., b2 = 2 in., b3 = 3 in., d1 = 2 in., d2 = 11 in., d3 = 2 in. Consider the...
Q3 (25 pts) 3. For the cantilever beam shown below and to the left, Determine the...
Q3
(25 pts) 3. For the cantilever beam shown below and to the left, Determine the reactions at the wall at C. Draw the shear (V) and moment (M) diagram for the beam and label the appropriate values. For the given cross section, determine the magnitude of the maximum COMPRESSIVE bending stress and state where this occurs along the length of the beam and along the height of the beam (top or bottom). Sketch the NORMAL stress distribution (profile) for...
2. (25 pts.) For the beam shown: a. Calculate the reactions loads at: i. Pin support A ii. Roler B b. Find the Equations of Shear and Bending Moments for the intervals A-B & B-C c. Find the Shear values (V) and Bendinf moments (M) at: 50 lb/ft i. Points A ii. Point B iii. Point C iv. Also the location and Magnitud of the Maximum Bending Momentin d. Draw the Shear and Bending -20 ft — Moments Diagrams and...
A cantilever beam supports the applied loads and moments as shown. (a) Calculate the support reactions. (b) Use the graphical method to construct the shear-force and bending moment diagrams for the beam. Also label the values of shear-force and bending=moment at all key points. 30 kN/m 25 kN 12 kN/m 80 kN.m х A В C D E F 1 m 3 m 1 m 1 m 1 m
1. (28 pts) A cantilever beam is subjected to the loads as shown in the figure. Va) Draw a free-body diagram and determine the supports at point 0. b) Draw shear and moment diagrams and find the values at key points (i.e. x = 0, 6 and 10 ft). If possible, please show your calculations. c) Find shear force V(x) and bending moment M(x) for () <x<6 ft. 12 10 kip 2 kip/ft skip سے 40 kip.lt 611 4 11...
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
For the beam and loading shown, please (a) determine the
reactions at A and C, (b) draw the shear and bending moment
diagrams, and (c) find the maximum normal stress on the
beam.
2000 lb 200 lb/ft 4 ft 4 ft 6 ft
a. Draw a complete free-body diagram for the beam shown in Fig.
1. Must show and label x-y coordinate system, support reactions,
loads, and dimensions
b. Derive formulas for all support reactions using conditions of
equilibrium. Must show all work.
c. Using the student variables shown below, calculate beam
support reactions and draw shear and bending moment diagrams. To
receive full credit, support reactions and loads must be shown on a
free-body diagram. Each shear and bending moment diagram must...
9. A beam ABC is subjected to a combination of UDL, point loads and applied moments as shown below. Draw to scale the shear force and bending moment diagrams. Label all local maximum and minimum values. Also sketch the deflected shape and indicate the location of any points of inflexion. (Ans: Moment at point D= 105kNm) 50 kNm 120 KN 20 kNm w = 10 kN/m BOTIT be 3 m 3 m 4 m Figure 5 Deflected shape Shear force...
1. For the simply supported beam subjected to the loading shown, Derive equations for the shear force V and the bending moment M for any location in the beam. (Place the origin at point A.) a. b. Plot the shear-force and bending-moment diagrams for the beam using the derived functions c. Report the maximum bending moment and its location. 42 kips 6 kips/ft 10 ft 20 ft
Q3
(25 pts) 3. For the cantilever beam shown below and to the left, Determine the reactions at the wall at C. Draw the shear (V) and moment (M) diagram for the beam and label the appropriate values. For the given cross section, determine the magnitude of the maximum COMPRESSIVE bending stress and state where this occurs along the length of the beam and along the height of the beam (top or bottom). Sketch the NORMAL stress distribution (profile) for...
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