Question 3 The vertical compressive stress at a point in a soil is 100 kN/m2 while the horizontal compressive stress at the same point is 57 kN/m2. Both stresses are principle stress. (a) Draw the Mohr circle that describes the 2D stress state at the point. (b) Find the maximum shear stress that acts at the point. (c) Determine the angle of the plane on which the maximum shear stress acts and obtain the normal stress on that plane (Use the pole method). (d) Confirm the maximum shear stress and the normal stress from (c) using the stress transformation equations (consider sign conventions!).
Question 3 The vertical compressive stress at a point in a soil is 100 kN/m2 while the horizontal compressive stress at the same point is 57 kN/m2. Both stresses are principle stress. (a) Draw the Mohr circle that describes the 2D stress state at the point. (b) Find the maximum shear stress that acts at the point. (c) Determine the angle of the plane on which the maximum shear stress acts and obtain the normal stress on that plane (Use the pole method). (d) Confirm the maximum shear stress and the normal stress from (c) using the stress transformation equations (consider sign conventions!).
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The vertical compressive stress at a point in a soil is 100 kN/m2 while the horizontal compressive stress at the same point is 57 kN/m2. Both stresses are principle stress.
(a) Draw the Mohr circle that describes the 2D stress state at the point.
(b) Find the maximum shear stress that acts at the point.
(c) Determine the angle of the plane on which the maximum shear stress acts and obtain the normal stress on that plane (Use the pole method).
(d) Confirm the maximum shear stress and the normal stress from (c) using the stress transformation equations (consider sign conventions!).
Transcribed Image Text:Question 3
The vertical compressive stress at a point in a soil is 100 kN/m? while the horizontal
compressive stress at the same point is 57 kN/m2. Both stresses are principle stress.
(a) Draw the Mohr circle that describes the 2D stress state at the point.
(b) Find the maximum shear stress that acts at the point.
(c) Determine the angle of the plane on which the maximum shear stress acts and obtain
the normal stress on that plane (Use the pole method).
(d) Confirm the maximum shear stress and the normal stress from (c) using the stress
transformation equations (consider sign conventions!).
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