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uly 2020_MI_Exam_VerC1.pdf NOTE: (1) Write on ONE SIDE of the page only. Two pages provided for...
For the beam shown below, find the maximum bending stress and maximum transverse shear stress. That...
For the beam shown below, find the maximum bending stress and maximum transverse shear stress. That is, carry out load and stress analyses in the following order. Load Analysis Draw the load diagram or free body diagram (FBD) and determine the support reactions. Show your calculations. • Draw the shear force diagram (SFD). Show your calculations. Draw the bending moment diagram (BMD). Show your calculations. Stress Analysis Identify the critical section(s) and determine the maximum normal (bending) stress at the...
Determine the reactions and draw the shear force and bending moment diagrams (SFD & BMD). Find...
Determine the reactions and draw the shear force and bending
moment diagrams (SFD & BMD). Find the maximum shear force and
bending moment along the horizontal portion of the beam amd
calculate the maximum traverse shear stress amd maximum normal
stress. Draw the normal and shear stress distributions along the
cross section.
Fy
= 760 lbs
Fx = 830 lbs
ト·25%) Decet reoconsand drd he Shes fore ond beg men Sheer Shes, ds+rivntions alonShe cross sec on Sho Stress Hress
be Acrobat Reader DC Araclar QUIZ-3.pdf QUESTION-2 A wood beam supports the loads shown in Figure...
be Acrobat Reader DC Araclar QUIZ-3.pdf QUESTION-2 A wood beam supports the loads shown in Figure given below. The cross-sectional dimensions of the beam are shown in Figure given below (on the right) (a) Draw shearing force and moment diagram (b) Determine the magnitude and location of the maximum horizontal shear stress in the beam. (c) Determine the magnitude and location of the maximum tension bending stress in the beam. 100 mm 70 Aramak icin burayaan
(TYPE B) SOLVING PROBLEMS: 5) Derive the equation and draw the diagram of bending moment for...
(TYPE B) SOLVING PROBLEMS: 5) Derive the equation and draw the diagram of bending moment for the following beam with given shear-force diagram (3 marks). 3 kipt (TYPE A) MULTIPLE CHOICE & TRUE or FALSE: 1) When a hollow beam with uniform and symmetrical cross-section is subjected to a bending moment, the maximum bending stress is developed on the inner surface/layer of the beam (1 mark). True True False 2) Area moment of inertia (1) depends on the material from...
For the shaft shown on the next page, draw the free body diagram of just the...
For the shaft shown on the next page, draw the free body diagram
of just the shaft (isolated from the pulleys) including directions
and values of all reaction loads at the self-aligning bearings A
and B. Once complete, directly under your FBD, draw the shear force
diagram (SFD), bending moment diagram (BMD) and torque diagram (TD)
for the shaft with all important values shown on the figures.
Directions are critical and you must show your axes (choose). Note,
in this...
Two pages prode lr atl pro NOTE: (1) Write on ONE SIDE of the page only....
Two pages prode lr atl pro NOTE: (1) Write on ONE SIDE of the page only. (2) Please place all final answers in the ANSWER BOX! O1. (85 points) The simple truss shown consists of a boom AB and rod BC joined by pins. Both boom AB and rod BC thickness of 7 mm and a height of 29 mm and its elongation cannot exceed ±0.5 mm. R cross section with a diameter of 22 mm and has an allowable...
Just part c please Problem 1 GIVEN 4okum loomm comm 2.m The member shown above has a W-shape cross section. FIND a)...
Just part c please
Problem 1 GIVEN 4okum loomm comm 2.m The member shown above has a W-shape cross section. FIND a) Draw the shear, moment and normal force diagram. b) Determine the absolute maximum bending stress in the beam and draw the stress distribution over the cross section at this location. o) Draw the transverse shear stress distribution over the cross section just to the right of point B. d) Determine the state of stress that the loading produces...
Design of Machine Elements (Spring 2019) Name: 1. Known: A gear exepts the same known force...
Design of Machine Elements (Spring 2019) Name: 1. Known: A gear exepts the same known force on each of two geometrically different steel shafts supported by self- aligning bearings at A and B. Find: Draw shear and bending moment diagrams for each shaft. Schematic and Given Data: 100 N 100 N +200- 300 +200- 300— 140 50 N 2. Known: A know maximum normal stress is produced by a bending moment. Find: Determine the value of bending moment • In...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
For the beam shown below, find the maximum bending stress and maximum transverse shear stress. That is, carry out load and stress analyses in the following order. Load Analysis Draw the load diagram or free body diagram (FBD) and determine the support reactions. Show your calculations. • Draw the shear force diagram (SFD). Show your calculations. Draw the bending moment diagram (BMD). Show your calculations. Stress Analysis Identify the critical section(s) and determine the maximum normal (bending) stress at the...
Determine the reactions and draw the shear force and bending
moment diagrams (SFD & BMD). Find the maximum shear force and
bending moment along the horizontal portion of the beam amd
calculate the maximum traverse shear stress amd maximum normal
stress. Draw the normal and shear stress distributions along the
cross section.
Fy
= 760 lbs
Fx = 830 lbs
ト·25%) Decet reoconsand drd he Shes fore ond beg men Sheer Shes, ds+rivntions alonShe cross sec on Sho Stress Hress
be Acrobat Reader DC Araclar QUIZ-3.pdf QUESTION-2 A wood beam supports the loads shown in Figure given below. The cross-sectional dimensions of the beam are shown in Figure given below (on the right) (a) Draw shearing force and moment diagram (b) Determine the magnitude and location of the maximum horizontal shear stress in the beam. (c) Determine the magnitude and location of the maximum tension bending stress in the beam. 100 mm 70 Aramak icin burayaan
(TYPE B) SOLVING PROBLEMS: 5) Derive the equation and draw the diagram of bending moment for the following beam with given shear-force diagram (3 marks). 3 kipt (TYPE A) MULTIPLE CHOICE & TRUE or FALSE: 1) When a hollow beam with uniform and symmetrical cross-section is subjected to a bending moment, the maximum bending stress is developed on the inner surface/layer of the beam (1 mark). True True False 2) Area moment of inertia (1) depends on the material from...
For the shaft shown on the next page, draw the free body diagram
of just the shaft (isolated from the pulleys) including directions
and values of all reaction loads at the self-aligning bearings A
and B. Once complete, directly under your FBD, draw the shear force
diagram (SFD), bending moment diagram (BMD) and torque diagram (TD)
for the shaft with all important values shown on the figures.
Directions are critical and you must show your axes (choose). Note,
in this...
Two pages prode lr atl pro NOTE: (1) Write on ONE SIDE of the page only. (2) Please place all final answers in the ANSWER BOX! O1. (85 points) The simple truss shown consists of a boom AB and rod BC joined by pins. Both boom AB and rod BC thickness of 7 mm and a height of 29 mm and its elongation cannot exceed ±0.5 mm. R cross section with a diameter of 22 mm and has an allowable...
Just part c please
Problem 1 GIVEN 4okum loomm comm 2.m The member shown above has a W-shape cross section. FIND a) Draw the shear, moment and normal force diagram. b) Determine the absolute maximum bending stress in the beam and draw the stress distribution over the cross section at this location. o) Draw the transverse shear stress distribution over the cross section just to the right of point B. d) Determine the state of stress that the loading produces...
Design of Machine Elements (Spring 2019) Name: 1. Known: A gear exepts the same known force on each of two geometrically different steel shafts supported by self- aligning bearings at A and B. Find: Draw shear and bending moment diagrams for each shaft. Schematic and Given Data: 100 N 100 N +200- 300 +200- 300— 140 50 N 2. Known: A know maximum normal stress is produced by a bending moment. Find: Determine the value of bending moment • In...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
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