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Knowing that for the state of stress shown below ox = 18 ksi, ay = 20...
Knowing that for the state of stress shown below 0x = 18 ksi, oy - 15...
Knowing that for the state of stress shown below 0x = 18 ksi, oy - 15 ksi, and Tyy 3 ksi, determine the angle that the x-axis must be rotated counter-clockwise to be oriented in the direction of the maximum principal stress, Express your answer in degrees to the nearest 0.1 degrees.
Knowing that for the state of stress shown below Ox = 20 ksi, oy = 12...
Knowing that for the state of stress shown below Ox = 20 ksi, oy = 12 ksi, and Txy = 7 ksi, determine the maximum principal stress. Express your answer in ksi to the nearest 100 psi. -0 X You Answered 14,860 Correct Answer 13.5 margin of error +/-0.5
Knowing that for the state of stress shown below Ox = 10 ksi, oy = 11...
Knowing that for the state of stress shown below Ox = 10 ksi, oy = 11 ksi, and Txy = 8 ksi, determine the magnitude of the maximum in-plane shear stress. Express your answer in ksi to the nearest 100 psi.
The given State of Stress is provided, the stresses are as follows: • ox= 15 KSI...
The given State of Stress is provided, the stresses are as follows: • ox= 15 KSI oy= 10 KSI • txy = 8 KSI Part 1 - For the state of stress described above: A. Draw the Mohr's Circle B. Determine the Radius of the Circle C. Find the coordinate Ō of its center D. Principal Stresses Plot all results above on the Mohr's Circle created under part A. Part 2 - Determine the following: A. Maximum In-Plane Shear Stress...
Please draw each point PROBLEM 4 (25%) Given the following state of stress, 20 ksi 16...
Please draw each point
PROBLEM 4 (25%) Given the following state of stress, 20 ksi 16 ksi 8 ksi Given the following state of stress, using the Mohr's circle: Determine the principal normal stresses and show their sense on a properly oriented element, “PRINCIPAL STRESS”. Show stress invariance with the original stress condition. Find the maximum shear stress with their associate normal stresses and show the results on a properly oriented element, "MAX SHEAR STRESS”. Show stress invariance with the...
Using Mohr's circle determine for the below differential element: a) the principal stresses and the plan...
Using Mohr's circle determine for the below differential
element:
a) the principal stresses and the plan on which they act. Show
the stresses on a properly oriented differential element. Label all
stresses.
b) the maximum shear stress and the plan on which they act. Show
the stresses on a properly oriented differential element. Label all
stresses.
c) the stresses on a differential element 40 degrees clockwise
from the original element. Show the stresses on a properly oriented
differential element. Label...
For the state of stress shown in figure (a=55 degrees), determine (a) The normal and shear...
For the state of stress shown in figure (a=55 degrees), determine (a) The normal and shear stress acting along the oblique face of the shaded triangle (b) The state of stress, if the element were rotated by an angle 55 degrees clockwise (c) The state of stress acting on the principal normal planes (d) The state of stress acting on the principle shear planes 60 MPa - 80 MPa — x 90 MPa State of stress The state of stress...
An element in plane stress is subjected to stresses Ox, Oy, and Txy (see figure). The...
An element in plane stress is subjected to stresses Ox, Oy, and Txy (see figure). The material is aluminum with modulus of elasticity E:= 10 (10%) psi and Poisson's ratio v:=0.25. Hint: start with Hooke's Law for Plane Stress (Eq. 7-35 and 36) and the relationship between G and E! (a) Determine the strains for an element oriented at an angle e. (b) Determine the principal strains. (c) Determine the maximum shear strains. 0x := 3000 psi , := 600...
For the state of stress (in ksi) shown below: (a) Draw and label the properly oriented...
For the state of stress (in ksi) shown below: (a) Draw and label
the properly oriented principal stress element. (b) Sketch the
properly oriented stress element feeling the maximum in-plane shear
stress. (c) Compute a range of values for the orientation of the
weld seam, , such that the nomal stress on the weld plane is
compressive.
Problem 3 For the following stress state, draw a Mohr's circle diagram, find the principal stresses...
Problem 3 For the following stress state, draw a Mohr's circle diagram, find the principal stresses and maximum normal stress. Also determine 'clockwise' rotation necessary to achieve o. ax 10 ksi, ay 24 ksi, txy 6 ksi
Knowing that for the state of stress shown below 0x = 18 ksi, oy - 15 ksi, and Tyy 3 ksi, determine the angle that the x-axis must be rotated counter-clockwise to be oriented in the direction of the maximum principal stress, Express your answer in degrees to the nearest 0.1 degrees.
Knowing that for the state of stress shown below Ox = 20 ksi, oy = 12 ksi, and Txy = 7 ksi, determine the maximum principal stress. Express your answer in ksi to the nearest 100 psi. -0 X You Answered 14,860 Correct Answer 13.5 margin of error +/-0.5
Knowing that for the state of stress shown below Ox = 10 ksi, oy = 11 ksi, and Txy = 8 ksi, determine the magnitude of the maximum in-plane shear stress. Express your answer in ksi to the nearest 100 psi.
The given State of Stress is provided, the stresses are as follows: • ox= 15 KSI oy= 10 KSI • txy = 8 KSI Part 1 - For the state of stress described above: A. Draw the Mohr's Circle B. Determine the Radius of the Circle C. Find the coordinate Ō of its center D. Principal Stresses Plot all results above on the Mohr's Circle created under part A. Part 2 - Determine the following: A. Maximum In-Plane Shear Stress...
Please draw each point
PROBLEM 4 (25%) Given the following state of stress, 20 ksi 16 ksi 8 ksi Given the following state of stress, using the Mohr's circle: Determine the principal normal stresses and show their sense on a properly oriented element, “PRINCIPAL STRESS”. Show stress invariance with the original stress condition. Find the maximum shear stress with their associate normal stresses and show the results on a properly oriented element, "MAX SHEAR STRESS”. Show stress invariance with the...
Using Mohr's circle determine for the below differential
element:
a) the principal stresses and the plan on which they act. Show
the stresses on a properly oriented differential element. Label all
stresses.
b) the maximum shear stress and the plan on which they act. Show
the stresses on a properly oriented differential element. Label all
stresses.
c) the stresses on a differential element 40 degrees clockwise
from the original element. Show the stresses on a properly oriented
differential element. Label...
For the state of stress shown in figure (a=55 degrees), determine (a) The normal and shear stress acting along the oblique face of the shaded triangle (b) The state of stress, if the element were rotated by an angle 55 degrees clockwise (c) The state of stress acting on the principal normal planes (d) The state of stress acting on the principle shear planes 60 MPa - 80 MPa — x 90 MPa State of stress The state of stress...
An element in plane stress is subjected to stresses Ox, Oy, and Txy (see figure). The material is aluminum with modulus of elasticity E:= 10 (10%) psi and Poisson's ratio v:=0.25. Hint: start with Hooke's Law for Plane Stress (Eq. 7-35 and 36) and the relationship between G and E! (a) Determine the strains for an element oriented at an angle e. (b) Determine the principal strains. (c) Determine the maximum shear strains. 0x := 3000 psi , := 600...
For the state of stress (in ksi) shown below: (a) Draw and label
the properly oriented principal stress element. (b) Sketch the
properly oriented stress element feeling the maximum in-plane shear
stress. (c) Compute a range of values for the orientation of the
weld seam, , such that the nomal stress on the weld plane is
compressive.
Problem 3 For the following stress state, draw a Mohr's circle diagram, find the principal stresses and maximum normal stress. Also determine 'clockwise' rotation necessary to achieve o. ax 10 ksi, ay 24 ksi, txy 6 ksi
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