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How would you complete this problem using the Mohr's circle
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14–50. The rotor shaft of...
3. The propeller shaft of the tugboat is subjected to the compressive force and torque shown....
3. The propeller shaft of the tugboat is subjected to the compressive force and torque shown. The shaft has an inner diameter of 125 mm and an outer diameter of 175 mm. (20 pts) 0410 KN 2 kNm Determine the following at point A located on the outer surface: avg. TMIP, 8s Principal stresses and Op c Draw Mohr's circle d Draw principal stress and maximum in plane shear stress elements
A ships solid circular drive shaft... A ships solid circular drive shaft is of diameter, d...
A ships solid circular drive shaft...
A ships solid circular drive shaft is of diameter, d 53 mm, and is subjected to a torque, T= 1512 Nm and an axial force, F-134 kN as shown. The shaft is made of steel with a yield stress of 350 MPa. Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle...
Answer is 2.84 Question 1 A ships solid circular drive shaft is of diameter, d-54 mm,...
Answer is 2.84
Question 1 A ships solid circular drive shaft is of diameter, d-54 mm, and is subjected to a torque, T steel with a yield stress of 350 MPa. 1700 Nm and an axial force, F-127 kN as shown. The shaft is made of Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle to get...
A shaft subjected to bending moment varying from -200 N m to +500 N m and a varying torque from 50 N m to 175 N m. If material of the shaft is 30C8, stress concentration factor is 1.85, notch sensitivity is 0.95 reliability 99.9% and factor of safety is 1
A shaft subjected to bending moment varying from -200 N m to +500 N m and a varying torque from 50 N m to 175 N m. If material of the shaft is 30C8, stress concentration factor is 1.85, notch sensitivity is 0.95 reliability 99.9% and factor of safety is 1.5, find the diameter of the shaft. The load on a bolt consists of an axial pull of 10 kN together with a transverse shear force of 5 kN. Find...
Question 1 0/1 pts A ships solid circular drive shaft is of diameter, d = 59...
Question 1 0/1 pts A ships solid circular drive shaft is of diameter, d = 59 mm, and is subjected to a torque, T = 1,959 Nm and an axial force, F = 191 kN as shown. The shaft is made of steel with a yield stress of 350 MPa. Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider...
Review ▼ Part A The propeller shaft of the tugboat is subjected to the compressive force...
Review ▼ Part A The propeller shaft of the tugboat is subjected to the compressive force and torque shown If the shaft has an inner diameter of 100 mm and an outer diameter of 150 mm, determine the principal stress at a point A located on the outer surface (Figure 1) Enter your answers numerically separated by a comma. Figure 1 of 1 MPa Submit ns 0 kN Part B kN m Determine the orientation of the principal plane Express...
(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....
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...
I do not have more trials please solve for these four problems for me thanks!!! All...
I do not have more trials
please solve for these four problems for me thanks!!!
All components below are made of steel with E-200 GPa, G-80 GPa, v-0.25.6.-210 MPa Problem 3: A load of 500 KN is applied on the cube in the x-direction (Fig. 3). The cube is constrained in the 2-direction such that it cannot expend or contract in that direction. 1. Calculate o 2. Calculate the strain and the change in length in the x-direction 3. Calculate...
3. The propeller shaft of the tugboat is subjected to the compressive force and torque shown. The shaft has an inner diameter of 125 mm and an outer diameter of 175 mm. (20 pts) 0410 KN 2 kNm Determine the following at point A located on the outer surface: avg. TMIP, 8s Principal stresses and Op c Draw Mohr's circle d Draw principal stress and maximum in plane shear stress elements
A ships solid circular drive shaft...
A ships solid circular drive shaft is of diameter, d 53 mm, and is subjected to a torque, T= 1512 Nm and an axial force, F-134 kN as shown. The shaft is made of steel with a yield stress of 350 MPa. Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle...
Answer is 2.84
Question 1 A ships solid circular drive shaft is of diameter, d-54 mm, and is subjected to a torque, T steel with a yield stress of 350 MPa. 1700 Nm and an axial force, F-127 kN as shown. The shaft is made of Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle to get...
Question 1 0/1 pts A ships solid circular drive shaft is of diameter, d = 59 mm, and is subjected to a torque, T = 1,959 Nm and an axial force, F = 191 kN as shown. The shaft is made of steel with a yield stress of 350 MPa. Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider...
Review ▼ Part A The propeller shaft of the tugboat is subjected to the compressive force and torque shown If the shaft has an inner diameter of 100 mm and an outer diameter of 150 mm, determine the principal stress at a point A located on the outer surface (Figure 1) Enter your answers numerically separated by a comma. Figure 1 of 1 MPa Submit ns 0 kN Part B kN m Determine the orientation of the principal plane Express...
(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....
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...
I do not have more trials
please solve for these four problems for me thanks!!!
All components below are made of steel with E-200 GPa, G-80 GPa, v-0.25.6.-210 MPa Problem 3: A load of 500 KN is applied on the cube in the x-direction (Fig. 3). The cube is constrained in the 2-direction such that it cannot expend or contract in that direction. 1. Calculate o 2. Calculate the strain and the change in length in the x-direction 3. Calculate...
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