Please draw the mohr's circle and show all steps and calculations.
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Please draw the mohr's circle and show all steps and
calculations.
Find the orientation of minor...
Please answer the following,and please note that 0.00130,0.00608,-0.000558 does not work. Mohr's circle is a graphical method used to determine an area's principal moments of inertia and to f...
Please answer the following,and please note that
0.00130,0.00608,-0.000558 does not work.
Mohr's circle is a graphical method used to determine an area's principal moments of inertia and to find the orientation of the principal axes. Another advantage of using Mohr's circle is that it does not require that long equations be memorized. The method is as follows: 1. To construct Mohr's circle, begin by constructing a coordinate system with the moment of inertia, I, as the abscissa (x axis) and...
tyles 3. For the body shown below a) Find the magnitude and orientation of the minor...
tyles 3. For the body shown below a) Find the magnitude and orientation of the minor and major principal stresses relative to the base directions provided b) Find the maximum shear stress magnitude and orientation relative the x y axis c) Find the normal and shear stress state on the horizontal plane d) Find the normal and shear stress state on plane AB For a) through d) find the solution using I) the stress transform equations as determined from the...
Q10 Evaluate, the location of the centroid, the principal moments of inertia, the orientation of the...
Q10 Evaluate, the location of the centroid, the principal moments of inertia, the orientation of the principal axes and the maximum stresses caused by a bending moment of 15 kNm about the major axis for the section shown below. (Centroid (from O): 5 mm, 60 mm Imax = 4.204x100 mm Imin = 0.280x10 mm Opl = 17.05° – major axis Opl = 107.05° – minor axis max oc = 252 N/mm² max o; = 252 N/mm²) 100
Q5: 10-56 Determine the principal stresses and the maximum shear stress using Mohr's circle. The following...
Q5: 10-56 Determine the principal stresses and the maximum shear stress using Mohr's circle. The following data sets give the stresses on the initial stress element (ox=300 MPa; Oy=-100 MPa; Txy=80MPa CW). Perform the following operations: (a) Draw the complete Mohr's circle, labeling critical points including 01, 02, Tmax, and Oavg. (b) On Mohr's circle, indicate which line represents the x-axis on the initial stress element. (c) On Mohr's circle, indicate the angles from the line representing the x-axis to...
1. Refer to Figure 1. For the following element draw the Mohr's circle and: a. Locate the pole b....
1. Refer to Figure 1. For the following element draw the Mohr's circle and: a. Locate the pole b. Show and label the tmax plane c. Show and label the major principal plane d. Show and label the minor principal plane e. Determine the horizontal plane stresses f. Determine the vertical plane stresses 100 kPa 30° Figure 1: An element undergoing a stress is shown
1. Refer to Figure 1. For the following element draw the Mohr's circle and: a....
PLEASE SHOW ALL STEPS! 4. The stress element on the fuselage of an airplane shown below...
PLEASE SHOW ALL STEPS!
4. The stress element on the fuselage of an airplane shown below is Gx 400 MPa; Oy -300 MPa; and Txy 200 MPa (clockwise). a. Draw the initial stress element showing the stresses acting on it. b. Showing your X and Y coordinate points clearly, draw the complete Mohr's circle on the attached graphing paper From the Mohr's circle, determine Gmax, Omin, and Tmax c. d. Draw the complete principal stress element. Draw the maximum shear...
Please find the distance y (with line over top) to the centroid of the beam's cross-sectional...
Please find the distance y (with line over top) to the centroid
of the beam's cross-sectional area, Also find the moment of inertia
about the x'-axis. Please do all calculations in table form
please.
50 mm 75 mm 75 mm 50 mm 25 mm 100 mm с х 25 mm 25 mm
Using Mohr's circle, determine, for the cross section of the rolled-steel angle shown in the figu...
Using Mohr's circle, determine,
for the cross section of the rolled-steel angle shown in the
figure, the orientation of the principal centroidal axes and the
corresponding values of the moments of inertia. Given, I⎯⎯x I ¯ x =
0.162 × 106 mm4 and I⎯⎯y I ¯ y = 0.454 × 106 mm4.
The principal axes are obtained by rotating the xy axes
through ° (Click to select)in the counterclockwise directionin the
clockwise direction.(Round the final answer to one decimal
place.)...
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...
Previous part results below iv. Using the results in part (iii) above, develop Mohr's circle for...
Previous part results below
iv. Using the results in part (iii) above, develop Mohr's circle for the 2D state of plane stress at point P. Your Mohr's circle does not need to be developed to scale. (6 points) Use Mohr's Circle that you developed to: • Determine the principal stresses, maximum in-plane shear stress at point P. (6 points) • Determine the orientation ( degrees) of the planes on which these stresses act, relative to the reference x-axis at point...
Please answer the following,and please note that
0.00130,0.00608,-0.000558 does not work.
Mohr's circle is a graphical method used to determine an area's principal moments of inertia and to find the orientation of the principal axes. Another advantage of using Mohr's circle is that it does not require that long equations be memorized. The method is as follows: 1. To construct Mohr's circle, begin by constructing a coordinate system with the moment of inertia, I, as the abscissa (x axis) and...
tyles 3. For the body shown below a) Find the magnitude and orientation of the minor and major principal stresses relative to the base directions provided b) Find the maximum shear stress magnitude and orientation relative the x y axis c) Find the normal and shear stress state on the horizontal plane d) Find the normal and shear stress state on plane AB For a) through d) find the solution using I) the stress transform equations as determined from the...
Q10 Evaluate, the location of the centroid, the principal moments of inertia, the orientation of the principal axes and the maximum stresses caused by a bending moment of 15 kNm about the major axis for the section shown below. (Centroid (from O): 5 mm, 60 mm Imax = 4.204x100 mm Imin = 0.280x10 mm Opl = 17.05° – major axis Opl = 107.05° – minor axis max oc = 252 N/mm² max o; = 252 N/mm²) 100
Q5: 10-56 Determine the principal stresses and the maximum shear stress using Mohr's circle. The following data sets give the stresses on the initial stress element (ox=300 MPa; Oy=-100 MPa; Txy=80MPa CW). Perform the following operations: (a) Draw the complete Mohr's circle, labeling critical points including 01, 02, Tmax, and Oavg. (b) On Mohr's circle, indicate which line represents the x-axis on the initial stress element. (c) On Mohr's circle, indicate the angles from the line representing the x-axis to...
1. Refer to Figure 1. For the following element draw the Mohr's circle and: a. Locate the pole b. Show and label the tmax plane c. Show and label the major principal plane d. Show and label the minor principal plane e. Determine the horizontal plane stresses f. Determine the vertical plane stresses 100 kPa 30° Figure 1: An element undergoing a stress is shown
1. Refer to Figure 1. For the following element draw the Mohr's circle and: a....
PLEASE SHOW ALL STEPS!
4. The stress element on the fuselage of an airplane shown below is Gx 400 MPa; Oy -300 MPa; and Txy 200 MPa (clockwise). a. Draw the initial stress element showing the stresses acting on it. b. Showing your X and Y coordinate points clearly, draw the complete Mohr's circle on the attached graphing paper From the Mohr's circle, determine Gmax, Omin, and Tmax c. d. Draw the complete principal stress element. Draw the maximum shear...
Please find the distance y (with line over top) to the centroid
of the beam's cross-sectional area, Also find the moment of inertia
about the x'-axis. Please do all calculations in table form
please.
50 mm 75 mm 75 mm 50 mm 25 mm 100 mm с х 25 mm 25 mm
Using Mohr's circle, determine,
for the cross section of the rolled-steel angle shown in the
figure, the orientation of the principal centroidal axes and the
corresponding values of the moments of inertia. Given, I⎯⎯x I ¯ x =
0.162 × 106 mm4 and I⎯⎯y I ¯ y = 0.454 × 106 mm4.
The principal axes are obtained by rotating the xy axes
through ° (Click to select)in the counterclockwise directionin the
clockwise direction.(Round the final answer to one decimal
place.)...
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...
Previous part results below
iv. Using the results in part (iii) above, develop Mohr's circle for the 2D state of plane stress at point P. Your Mohr's circle does not need to be developed to scale. (6 points) Use Mohr's Circle that you developed to: • Determine the principal stresses, maximum in-plane shear stress at point P. (6 points) • Determine the orientation ( degrees) of the planes on which these stresses act, relative to the reference x-axis at point...
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