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Mohrs circle help
An engineer has sketched a Mohr's circle in order to carry out calculations...
PROBLEM 4: Continued Part2: The state of stress at a point represented on the Mohr's circle...
PROBLEM 4: Continued Part2: The state of stress at a point represented on the Mohr's circle shown below as point X (- 200 MPa, -200 MPa) and y. The center of the circle has a coordinate C (50,0) and a radius R=320 MPa. Determine the normal stress Ox' and the shear stress t x'y on an element oriented 0=10 degrees clockwise from x. 16% (-200, -200) 20 R 01 to +T
Solve using Mohr's Circle 90 MPa 30 MPa 60 MPa Fig. P7.14 7.13 through 7.16 For...
Solve using Mohr's Circle
90 MPa 30 MPa 60 MPa Fig. P7.14 7.13 through 7.16 For the given state of stress, determine the normal and shearing stresses after the element shown has been rotated through (a) 25° clockwise, (b) 10° counterclockwise. 7.36 Solve Prob. 7.14, using Mohr's circle.
Help with part B, please! I have worked part a (answer below) and drew Mohr's circle,...
Help with part B, please!
I have worked part a (answer below) and drew Mohr's circle, but
I simply do not understand "b" at all. I know what hydrostatic
pressure is but I just do not understand what is asking or even how
to implement. Thanks!
Problem:
A stress element in plane stress encounters x = 20
MPa, y =
-10 MPa, and xy = 13
MPa.
(a) Determine the three principal stresses and maximum shear
stress.
( My answer:...
I need part b please 40 M 45 MP 50 MPA - For the given state...
I need part b please
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle to determine 1) the principal...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle to determine 1) the principal...
(50 Marks) a) As part of the product development process for go-kart drive shaft, the engineer has instrumented a critical area of the shaft with a solid bar. A drive shaft bar is designed to car...
(50 Marks) a) As part of the product development process for go-kart drive shaft, the engineer has instrumented a critical area of the shaft with a solid bar. A drive shaft bar is designed to carry a tensile load. The engineer has proposed a circular bar with cross-section having a radius of 2X mm. It carries an axial tensile load of İY0 kN. By using equation; i) Calculate the values of principal stresses at the critical area of the bar....
Please Answer the remainer of the questions parts. thank you! Part 1 Your Answer Correct Answer...
Please Answer the remainer of the questions parts. thank
you!
Part 1 Your Answer Correct Answer Correct Consider a point in a structural member that is subjected to plane stress. Normal and shear stresses acting on horizontal and vertical planes at the point are shown. Assume stress magnitudes of S - 55ksi, 5-15 ks, and S. - 14 ksi. m. Construct Mohr's circle for this state of stress on paper and use the results to answer the questions in the...
The cantilever beam of length 3L is subject to concentrated loads P and 2P and has...
The cantilever beam of length 3L is subject to concentrated loads P and 2P and has the thin-walled cross-section illustrated below. The cross-section has uniform thickness t and moment of inertia with respect to the centroidal z-axis given by I = 3140 t4. Use t = 5 mm, L = 135 mm and P= 6 kN. 2P H 10 t 5t A P 10 t 22 L 10 t 1) Determine the numerical value of the shear force and bending...
please help me with the shear, moment and torque diagrams and the Mohr’s circle also, is this project worth insuring? Thank you. A consulting company submitted a structural design project and...
please help me with the shear, moment and torque
diagrams
and the Mohr’s circle
also, is this project worth insuring?
Thank you.
A consulting company submitted a structural design project and they want to be insured by XYZ Insurance Company. XYZ Insurance Company then ask their internal Engineering department to do an engineering analysis to check if the project is worth insuring. Your team has been tasked to perform al acceptable engineering analyses, and most importantly to come up with...
PROBLEM 4: Continued Part2: The state of stress at a point represented on the Mohr's circle shown below as point X (- 200 MPa, -200 MPa) and y. The center of the circle has a coordinate C (50,0) and a radius R=320 MPa. Determine the normal stress Ox' and the shear stress t x'y on an element oriented 0=10 degrees clockwise from x. 16% (-200, -200) 20 R 01 to +T
Solve using Mohr's Circle
90 MPa 30 MPa 60 MPa Fig. P7.14 7.13 through 7.16 For the given state of stress, determine the normal and shearing stresses after the element shown has been rotated through (a) 25° clockwise, (b) 10° counterclockwise. 7.36 Solve Prob. 7.14, using Mohr's circle.
Help with part B, please!
I have worked part a (answer below) and drew Mohr's circle, but
I simply do not understand "b" at all. I know what hydrostatic
pressure is but I just do not understand what is asking or even how
to implement. Thanks!
Problem:
A stress element in plane stress encounters x = 20
MPa, y =
-10 MPa, and xy = 13
MPa.
(a) Determine the three principal stresses and maximum shear
stress.
( My answer:...
I need part b please
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle to determine 1) the principal...
40 M 45 MP 50 MPA - For the given state of stress, Part A: determine analytically (using stress transformation equations): 1) the principal planes. 2) the principal stresses. 3) Sketch the stress element for the above condition 4) the orientation of the planes of maximum in-plane shearing stress, 5) the maximum in-plane shearing stress and the corresponding normal stress. 6) Sketch the stress element for the above condition Part B: Only use Mohr's circle to determine 1) the principal...
(50 Marks) a) As part of the product development process for go-kart drive shaft, the engineer has instrumented a critical area of the shaft with a solid bar. A drive shaft bar is designed to carry a tensile load. The engineer has proposed a circular bar with cross-section having a radius of 2X mm. It carries an axial tensile load of İY0 kN. By using equation; i) Calculate the values of principal stresses at the critical area of the bar....
Please Answer the remainer of the questions parts. thank
you!
Part 1 Your Answer Correct Answer Correct Consider a point in a structural member that is subjected to plane stress. Normal and shear stresses acting on horizontal and vertical planes at the point are shown. Assume stress magnitudes of S - 55ksi, 5-15 ks, and S. - 14 ksi. m. Construct Mohr's circle for this state of stress on paper and use the results to answer the questions in the...
The cantilever beam of length 3L is subject to concentrated loads P and 2P and has the thin-walled cross-section illustrated below. The cross-section has uniform thickness t and moment of inertia with respect to the centroidal z-axis given by I = 3140 t4. Use t = 5 mm, L = 135 mm and P= 6 kN. 2P H 10 t 5t A P 10 t 22 L 10 t 1) Determine the numerical value of the shear force and bending...
please help me with the shear, moment and torque
diagrams
and the Mohr’s circle
also, is this project worth insuring?
Thank you.
A consulting company submitted a structural design project and they want to be insured by XYZ Insurance Company. XYZ Insurance Company then ask their internal Engineering department to do an engineering analysis to check if the project is worth insuring. Your team has been tasked to perform al acceptable engineering analyses, and most importantly to come up with...
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