The state of plane stress at a point with respect to the xy-axes is shown in Fig. (a). Using Mohr’s circle, determine (1) the principal stresses and principal planes; (2) the maximum in-plane shear stress; and (3) the equivalent state of stress with respect to the x’y’-axes. Show all results on sketches of properly oriented elements.
![The state of plane stress at a point with respect to the xy-axes, Using Mohr’s circle 1 The state of plane stress at a point with respect to the xy-axes is shown in Fig. (a). Using Mohr’s circle, determine (1) the principal stresses and principal planes; (2) the maximum in-plane shear stress; and (3) the equivalent state of stress with respect to the x’y’-axes. Show all results on sketches of properly oriented elements.](https://theskyscorner.com/wp-content/uploads/2023/03/image-292.png)
![The state of plane stress at a point with respect to the xy-axes, Using Mohr’s circle 2 The state of plane stress at a point with respect to the xy-axes is shown in Fig. (a). Using Mohr’s circle, determine (1) the principal stresses and principal planes; (2) the maximum in-plane shear stress; and (3) the equivalent state of stress with respect to the x’y’-axes. Show all results on sketches of properly oriented elements.](https://theskyscorner.com/wp-content/uploads/2023/03/image-293.png)
![The state of plane stress at a point with respect to the xy-axes, Using Mohr’s circle 3 The state of plane stress at a point with respect to the xy-axes is shown in Fig. (a). Using Mohr’s circle, determine (1) the principal stresses and principal planes; (2) the maximum in-plane shear stress; and (3) the equivalent state of stress with respect to the x’y’-axes. Show all results on sketches of properly oriented elements.](https://theskyscorner.com/wp-content/uploads/2023/03/image-294.png)