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At point A!! Please write neatly.
Determine the applied stresses at point A shown in the...
O Due to an applied loading, an element at the point on a machine shaft is...
O Due to an applied loading, an element at the point on a machine shaft is subjected to the state of plane stress shown in the figure. O Determine the principal stresses and the absolute maximum shear stress at the point Ox = –20 psi, Oy = Opsi, Txy = -40 psi . 20 psi 40 psi
Problem 3 (17 points) The two static forces are applied to a circular 1-in diameter shaft as shown. The shaft is ma...
Problem 3 (17 points) The two static forces are applied to a circular 1-in diameter shaft as shown. The shaft is made from 1045 CD Steel with a yield strength of 77 ksi. 8 in 1000 lbf 1 in dia. Cross section at the wall 800 lbf (2) a) Identify the location of the most critical stress element. (A. E, F or D?) (10) b) Determine the stresses and draw the stresses on the critical element identified in part a)....
Please show all work . Q2. The stresses at a point along a beam supporting a...
Please show all work .
Q2. The stresses at a point along a beam supporting a sign are σχ-52.25 ksi, ơy-51.175 ksi, and Txy 52.82 ksi in the directions as shown in the planar stress element. Using the stress transformation equations, find (a) the principal stresses. Show these stresses on a sketch of a properly oriented element. (b) the maximum shear stresses and associated normal stresses. Show these stresses on a sketch ofa properly oriented element xy Mona's office
Please only draw stresses on the 2D & 3D elements (point at the bottom of the...
Please only draw stresses on the 2D & 3D elements (point
at the bottom of the shaft AB) for this problem. (last part).Thank
you!
T=Skip.in A torque of magnitude T=8 kip-in is applied at D as shown. Knowing the diameter of shaft AB is 2.25 in and that the diameter of shaft CD is 1.75 in, determine the maximum shearing stress in shaft AB and shaft CD. The element shown below the main figure is located at the bottom (lowest...
Horizontal The stresses shown in the figure are applied at a point in a dry clayey...
Horizontal The stresses shown in the figure are applied at a point in a dry clayey sand soil mass. A- 50 kPa and B-120 kPa The shear strength parameters of the clayey sand are: 8kPa and ф-28° 0-25 a) The value of the shear stress, т, is slowly increased. What value would cause shear failure at the point in kPa? b) At failure what angle in degrees would the failure plane make with the horizontal at the point?
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
1) For the loading of the beam shown below, determine the maximum normal and shear stress...
1) For the loading of the beam shown below, determine the maximum normal and shear stress at the wall if Kt for bending is 2.7 and K, for torsion is 2.3 If we use a steel with an Sy 600 MPa, what is the "safety factor" if we only consider the maximum normal stress? Notice the bending moment, start with a cross product to determine the moment at the wall. The vector R-[0.25,0,0.3] in meters 200 mm 25-mm-dia. round rod...
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...
Question 3 (1) Figure Q3(a) shows the stresses at a point in a structure. Using the...
Question 3 (1) Figure Q3(a) shows the stresses at a point in a structure. Using the Mohr's circle, determine the maximum in-plane shear stress of the point and shown it on a sketch of a properly oriented stress element. 12 marks) 50 MPa 30 MPa 30 MPa Figure Q3(a) (2) The 50-mm-diameter solid shaft shown in Figure Q3(b) is fixed at B and subject to the couple forces at the top through a rigid wrench. Determine the maximum shear stres...
Please make function file and answer 9-15. The state of stress at a point is shown...
Please make function file and answer
9-15. The state of stress at a point is shown on the element. Determine (a) the principal stresses and (b) the maximum in-plane shear stress and average normal stress at the point. Specify the orientation of the element in each case. 60 MPa 30 MPa 45 MPa Prob. 9-15 Formula: + Oy Oy sin 29 cos 20 + Try sin 20 et sin 20 + Tycos 20 What to find using MALLAB Write a...
O Due to an applied loading, an element at the point on a machine shaft is subjected to the state of plane stress shown in the figure. O Determine the principal stresses and the absolute maximum shear stress at the point Ox = –20 psi, Oy = Opsi, Txy = -40 psi . 20 psi 40 psi
Problem 3 (17 points) The two static forces are applied to a circular 1-in diameter shaft as shown. The shaft is made from 1045 CD Steel with a yield strength of 77 ksi. 8 in 1000 lbf 1 in dia. Cross section at the wall 800 lbf (2) a) Identify the location of the most critical stress element. (A. E, F or D?) (10) b) Determine the stresses and draw the stresses on the critical element identified in part a)....
Please show all work .
Q2. The stresses at a point along a beam supporting a sign are σχ-52.25 ksi, ơy-51.175 ksi, and Txy 52.82 ksi in the directions as shown in the planar stress element. Using the stress transformation equations, find (a) the principal stresses. Show these stresses on a sketch of a properly oriented element. (b) the maximum shear stresses and associated normal stresses. Show these stresses on a sketch ofa properly oriented element xy Mona's office
Please only draw stresses on the 2D & 3D elements (point
at the bottom of the shaft AB) for this problem. (last part).Thank
you!
T=Skip.in A torque of magnitude T=8 kip-in is applied at D as shown. Knowing the diameter of shaft AB is 2.25 in and that the diameter of shaft CD is 1.75 in, determine the maximum shearing stress in shaft AB and shaft CD. The element shown below the main figure is located at the bottom (lowest...
Horizontal The stresses shown in the figure are applied at a point in a dry clayey sand soil mass. A- 50 kPa and B-120 kPa The shear strength parameters of the clayey sand are: 8kPa and ф-28° 0-25 a) The value of the shear stress, т, is slowly increased. What value would cause shear failure at the point in kPa? b) At failure what angle in degrees would the failure plane make with the horizontal at the point?
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
1) For the loading of the beam shown below, determine the maximum normal and shear stress at the wall if Kt for bending is 2.7 and K, for torsion is 2.3 If we use a steel with an Sy 600 MPa, what is the "safety factor" if we only consider the maximum normal stress? Notice the bending moment, start with a cross product to determine the moment at the wall. The vector R-[0.25,0,0.3] in meters 200 mm 25-mm-dia. round rod...
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...
Question 3 (1) Figure Q3(a) shows the stresses at a point in a structure. Using the Mohr's circle, determine the maximum in-plane shear stress of the point and shown it on a sketch of a properly oriented stress element. 12 marks) 50 MPa 30 MPa 30 MPa Figure Q3(a) (2) The 50-mm-diameter solid shaft shown in Figure Q3(b) is fixed at B and subject to the couple forces at the top through a rigid wrench. Determine the maximum shear stres...
Please make function file and answer
9-15. The state of stress at a point is shown on the element. Determine (a) the principal stresses and (b) the maximum in-plane shear stress and average normal stress at the point. Specify the orientation of the element in each case. 60 MPa 30 MPa 45 MPa Prob. 9-15 Formula: + Oy Oy sin 29 cos 20 + Try sin 20 et sin 20 + Tycos 20 What to find using MALLAB Write a...
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