please write the steps clearly 1. For each stress states listed below, 1) Calculate all three...
3. For each of the plane stress states listed below draw a Mohr's Circle diagram properly labeled, find the principal normal and shear stresses and determine the angle from the X- axis to di. Draw the principal stress element and the maximum shear stress element. (a) 0 = -8 MPa, ay = 7 MPa, Try = 6 MPa (CW) (b) 0 = 9 MPa, y = -6 MPa, Try = 3 MPa (CW) (c) 0:= -4 MPa, y = 12...
Homework For each of the plane stress states listed below, draw a Mohr's circle diagram properly labeled, find the principal normal and shear stresses, and determine the angle from the x axis to 0. Draw stress elements as in Fig. 3-11c and d and label all details. (a) Ox = -8 MPa, Oy = 7 MPa, Txy = 6 MPa cw (b) 0x = 9 MPa, Oy = -6 MPa, Txy = 3 MPa cw (C) Ox = -4 MPa,...
Machine Design Problem Please show all work and steps For the stress states shown, find the principal stresses graphically using Mohr circle. No points will be awarded if formulae are blindly used instead of using numbers determined from Mohr circle. All numbers used in the intermediate steps for determining the principal stresses must be shown on the Mohr circle. [-15 901 9 25 o ksi b. Oxx = 100 MPa (Tensile); Ozz = 40 MPa (Tensile); 1x2 = 60 MPa...
PLEASE SHOW ALL STEPS! 4. The stress element on the fuselage of an airplane shown below is Gx 400 MPa; Oy -300 MPa; and Txy 200 MPa (clockwise). a. Draw the initial stress element showing the stresses acting on it. b. Showing your X and Y coordinate points clearly, draw the complete Mohr's circle on the attached graphing paper From the Mohr's circle, determine Gmax, Omin, and Tmax c. d. Draw the complete principal stress element. Draw the maximum shear...
Problem 1 - Mohr's circle for plane stress For the given state of stress,[30 complete following: pts. 1. Draw Mohr's circle showing the principal stresses (max & min), center points (C) and radius R. (20 pts.] 60 MPa 180 MPa NMP MPa 2. Determine the principal planes (20and ) and the maximum in-plane shear stress (max). What is the corresponding normal stress (O") for this maximum in-plane shear stress? [10 pts.)
nice and neat please ty The state of stress at a point is 6x = -6 Exy=9 a 1) Drain 3D cube by=-18 Ty2=0 - 62=-12 Zzx =0 a) Cidentify principle plane (zeroar) (kpsi) 3 Draw 20 cube 4 solue MOHR's circle labeling points of interest, and report max shear stress
3. The states of stress at two points in a loaded beam are represented in Fig. P1.26a. Determine the following for each point: (a) The magnitude of the maximum and minimum principal stresses and the maximum shearing stress; use Mohr's circle. (b) The orientation of the principal and maximum shear planes; use Mohr's circle. (c) Sketch the results on properly oriented elements. [30] SOMPa 60 MPa 100 MPa
Calibri rWrap Text General - 10 TT 19 Copy -A A == R Normal Conditional format as Check Cell Formatting Table Bad Explanatory Good Follow B U Merge Center S. Alignment Number Styles M2 - S T U V W X Y Z E A = you entered/2pts > = you entered/2pts > O P Q R Shear stress for new x'y (prime direction Txy (MPa) Normal stress in new y(prime) direction dy (MPa) 14 pts total - You entered/2pts...
Problem 6 (15 points) The state of plane stress at a point is shown on the element in Figure 6. a. Using Mohr's circle, determine the principal stresses and the maximum in-plane shear stress and average normal stress. Specify the orientation of the element in each case. b. Represent the state of stress on an element oriented 30° counterclockwise from the position shown in Figure 6. 20 MPa 100 MPa 40 MPa Figure 6 (plot Mohr's circle on the next...
The block diagrams below show states of stress on soil elements. For each state of stress, perform the following tasks: 1. Sketch a Mohr circle of stress 2. Identify the major and minor principal stresses, σ1 and σ3, and the maximum shear stress, τmax 3. Compute the mean stress and shear stress invariants, p and q. Note that p = 1⁄2(σ1+ σ3) and q = σ1-σ3 for two-dimensional stress conditions where we ignore the intermediate principal stress, σ2. 4. Identify...