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200 N Problem #1 (30 points): Consider the bent rod of...
1. The part shown consists of a bent rod with a solid circular cross section of...
1. The part shown consists of a bent rod with a solid circular cross section of diameter 20 mm. Consider the cross- section on a cut at both a-a, and b-b. 400 mm A] For each cut, label the shear force, bending moments, and torsion moments. Then determine the critical point with the highest normal stress at each cross- section. No stress calculations are required. /100 mm 1 BJ Determine the point of highest normal stress for the bent rod...
The cantilevered elbow rod has a diameter of 0.5 in.
The cantilevered elbow rod has a diameter of 0.5 in. If it is subjected to the applied loads at its free end as shown, (a) determine the resultant forces and moments Fx, Fy, Fz, Mx, My, Mz at the cross-section indicated, (b) calculate the stress components that act at point A due to each force/moment/torsion and determine the state of stress at point A, and (c) calculate the principal stresses, the angle of principal direction, maximum shear stress and direction...
5. The brick is subjected to the loads shown. The cross section throughout the entire brick...
5. The brick is subjected to the loads shown. The cross section throughout the entire brick is 0.2 m x 0.4 m. Determine the state of stress at the corner point A, B, C, and D. Also, sketch the stress distribution acting over the cross section ABCD (perpendicular to the longitudinal direction of the brick). The end E of the rod is fixed. 0.4 m 200 N 0.4 0.2 m 300 N
1) A horizontal beam carries a load of 200 N A F 1. The horizontal beam...
1) A horizontal beam carries a load of 200 N A F 1. The horizontal beam weighs 2 kN. The beam is pinned at point B. It is restrained by a thin aluminum rod CD. a) draw the free body diagram of the beam AC, and b) determine the force acting at point Fie 2) A beam of square cross-section 30 x 30 mm is connected with a bolt of 25 mm diameter. The bolt exerts a force 40 KN...
1. (30 pts) A 1200 N and 800 N forces as well as a 200 Nm...
1. (30 pts) A 1200 N and 800 N forces as well as a 200 Nm torque are applied at end B of shaft BC as shown in Figure 1 below. The shaft has a diameter of 40 mm. For the given 200 mm loading condition, a) draw the FBD of the shaft segment (showing the internal loads) and determine the internal loadings N,Vy, V:, M, M., and T, at the cross-section 200 mm away from the 200 mm point...
cantilevered elbow rod has a diam of 0.5 in. 'it is subjected to the applied loads...
cantilevered elbow rod has a diam of 0.5 in. 'it is subjected to the applied loads at its free end (a) determine the resultant forces and moments Fx, Fy, F,,Mx, My, M, at the cross- section indicated, (b) calculate the stress components that act at point A due to each force/moment/torsion and determine the state of stress at point A, and (c) calculate the principal stresses, the angle of principal direction, maximum shear stress and direction at point A. (a)...
Please show all steps and applicable diagrams a = 2.0m b = 4.0m c = 2.0m...
Please show all steps and applicable diagrams
a = 2.0m
b = 4.0m
c = 2.0m
d = 6.0m
e = 3.0m
M = 48kN*m
w1 = 8kN/m
w2 = 6kN/m
W1 W2 M BE 5 •d ye Beam DBE has the cross-section shown in the figure to the right Calculate: c) the vertical position y, of the centroid of the girder cross-section, and d) the moment of inertia Ix' about the horizontal axis x'x' passing through the centroid of...
Show all work and steps please. *6-80. If the beam is subjected to a moment of...
Show all work and steps please.
*6-80. If the beam is subjected to a moment of M 100 kN m, determine the bending stress at points A B, and C. Sketch the bending stress distribution on the cross section 300 mm м 30 mm 30 mm В. 150 mm С. 150 mm
please show all work A cross-section is subjected to a maximum shear of V=220 kN (see...
please show all work
A cross-section is subjected to a maximum shear of V=220 kN (see figure): 1. Determine the centroid of the cross-section. 2. Calculate the moment of inertia (l) of the cross-section. 3. Determine the shear stress at point A in the cross-section. 7710 -250 06 -100 -10 -300 -100 K-10 80 10 125 10 All dimensions are in millimeters
7 of 15 6-of-9 Problem 4 (35 Points) The rod has a diameter of 40 mm....
7 of 15 6-of-9 Problem 4 (35 Points) The rod has a diameter of 40 mm. It is subjected to the force and moment system shown. (a) (15 points) Determine the stress components that act at point B. Show the results on a volume element below located at this point. (b) (10 points) Assume that the stress components at point A are given by Ox = -37 MPa, y = 0 MPa, Try = - 8 MPa. Draw a Mohr's...
1. The part shown consists of a bent rod with a solid circular cross section of diameter 20 mm. Consider the cross- section on a cut at both a-a, and b-b. 400 mm A] For each cut, label the shear force, bending moments, and torsion moments. Then determine the critical point with the highest normal stress at each cross- section. No stress calculations are required. /100 mm 1 BJ Determine the point of highest normal stress for the bent rod...
5. The brick is subjected to the loads shown. The cross section throughout the entire brick is 0.2 m x 0.4 m. Determine the state of stress at the corner point A, B, C, and D. Also, sketch the stress distribution acting over the cross section ABCD (perpendicular to the longitudinal direction of the brick). The end E of the rod is fixed. 0.4 m 200 N 0.4 0.2 m 300 N
1) A horizontal beam carries a load of 200 N A F 1. The horizontal beam weighs 2 kN. The beam is pinned at point B. It is restrained by a thin aluminum rod CD. a) draw the free body diagram of the beam AC, and b) determine the force acting at point Fie 2) A beam of square cross-section 30 x 30 mm is connected with a bolt of 25 mm diameter. The bolt exerts a force 40 KN...
1. (30 pts) A 1200 N and 800 N forces as well as a 200 Nm torque are applied at end B of shaft BC as shown in Figure 1 below. The shaft has a diameter of 40 mm. For the given 200 mm loading condition, a) draw the FBD of the shaft segment (showing the internal loads) and determine the internal loadings N,Vy, V:, M, M., and T, at the cross-section 200 mm away from the 200 mm point...
cantilevered elbow rod has a diam of 0.5 in. 'it is subjected to the applied loads at its free end (a) determine the resultant forces and moments Fx, Fy, F,,Mx, My, M, at the cross- section indicated, (b) calculate the stress components that act at point A due to each force/moment/torsion and determine the state of stress at point A, and (c) calculate the principal stresses, the angle of principal direction, maximum shear stress and direction at point A. (a)...
Please show all steps and applicable diagrams
a = 2.0m
b = 4.0m
c = 2.0m
d = 6.0m
e = 3.0m
M = 48kN*m
w1 = 8kN/m
w2 = 6kN/m
W1 W2 M BE 5 •d ye Beam DBE has the cross-section shown in the figure to the right Calculate: c) the vertical position y, of the centroid of the girder cross-section, and d) the moment of inertia Ix' about the horizontal axis x'x' passing through the centroid of...
Show all work and steps please.
*6-80. If the beam is subjected to a moment of M 100 kN m, determine the bending stress at points A B, and C. Sketch the bending stress distribution on the cross section 300 mm м 30 mm 30 mm В. 150 mm С. 150 mm
please show all work
A cross-section is subjected to a maximum shear of V=220 kN (see figure): 1. Determine the centroid of the cross-section. 2. Calculate the moment of inertia (l) of the cross-section. 3. Determine the shear stress at point A in the cross-section. 7710 -250 06 -100 -10 -300 -100 K-10 80 10 125 10 All dimensions are in millimeters
7 of 15 6-of-9 Problem 4 (35 Points) The rod has a diameter of 40 mm. It is subjected to the force and moment system shown. (a) (15 points) Determine the stress components that act at point B. Show the results on a volume element below located at this point. (b) (10 points) Assume that the stress components at point A are given by Ox = -37 MPa, y = 0 MPa, Try = - 8 MPa. Draw a Mohr's...
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