A 17.5 kN force is applied at Point D of the cast iron post shown. Knowing that the post has a diameter of 60 mm, using Mohr’s circle determine the principal stresses and the maximum shearing stress at Point K
A 17.5 kN force is applied at Point D of the cast iron post shown. Knowing...
8.42A 13-kN force is applied as shown to the 60-mm-diameter cast-iron post ABD. At point H, determine (a) the principal stresses and principal planes, (b) the maximum shearing stress 13 kN 300 mm 100 mm 125 mm 150 mm Fig. P8.42 8.42A 13-kN force is applied as shown to the 60-mm-diameter cast-iron post ABD. At point H, determine (a) the principal stresses and principal planes, (b) the maximum shearing stress 13 kN 300 mm 100 mm 125 mm 150 mm...
Question 4 Two forces are applied at points A and B of the solid cast-iron bracket shown. Knowing that the bracket has a diameter of 20mm, determine the stresses at point H 20 mm IH 10 kN A 80mm 60 mm 2.7 kN Question 4 Two forces are applied at points A and B of the solid cast-iron bracket shown. Knowing that the bracket has a diameter of 20mm, determine the stresses at point H 20 mm IH 10 kN...
Three forces are applied to the machine component ABD as shown. Knowing that the cross section containing point H is a 20 x 40- mm rectangle, determine the principal stresses and the maximum shearing stress at point H. Take force Q 3.5 kN. (Round the final answers to two decimal places.) y50 mm 150 mm 0.5 kN 40 mm В 20 mm Q 160 mm 2.5 kN The principal stresses at point Hare as follows: |MPа Оa МPа Оb- The...
4. The vertical post shown has a diameter of 64 mm. A horizontal force of 10 kN and a torque of 1.4 kNm are applied at the top of the post. Determine the principal stresses and maximum shearing stress at points H and K which are located on a plane 240mm down from the top of the post. 1.4 kNm 10 KN H K 240 mm
The steel pipe AB has a 106-mm outer diameter and a 6-mm wall thickness. Knowing that arm CD is rigidly attached to the pipe, determine the principal stresses and the maximum shearing stress at point K 53 mm 6 mm 191 mm 9.2 kN 152 mm MPa MPa MPa ? max ?min
A solid aluminum post is subjected to a vertical force of P = 70 kN and a concentrated torque of T = 3.25 kN-m, acting in the directions shown. The length of the pole is L = 90 mm and the diameter is 60 mm. a) Calculate the normal and shear stresses at point H (in MPa) [Ans. to check: σx = 0 MPa, σy=-24.8 MPa, τxy=76.6 MPa] b) Draw the stress element at point H c) Calculate the normal and shear stresses...
2. Three forces are applied to the bar shown, determine (a) The state of stress at point H (b) Construct the Mohr's circle and determine the principal stresses, principal planes and maximum shearing stresses at point H 15 kips 25 kips
3. The propeller shaft of the tugboat is subjected to the compressive force and torque shown. The shaft has an inner diameter of 125 mm and an outer diameter of 175 mm. (20 pts) 0410 KN 2 kNm Determine the following at point A located on the outer surface: avg. TMIP, 8s Principal stresses and Op c Draw Mohr's circle d Draw principal stress and maximum in plane shear stress elements
A cylindrical tank holding oxygen at 4000 kPa pressure has an outside diameter of 500 mm and a wall thickness of 10 mm. It has been determined that a critical point on the tank is subjected to the tensile stress of 464 MPa in x-direction, compressive stress of 340 MPa in y-direction and shearing stress of 600 MPa. By using Mohr’s Circle; Sketch the plane stresses element for the critical point. Determine the principal stresses and their locations. Determine the...
A cylindrical tank holding oxygen at 5000 kPa pressure has an outside diameter of 500 mm and a wall thickness of 10 mm. It has been determined that a critical point on the tank is subjected to the tensile stress of 465 MPa in x-direction, compressive stress of 350 MPa in y-direction and shearing stress of 600 MPa. By using Mohr’s Circle; Sketch the plane stresses element for the critical point. Determine the principal stresses and their locations. Determine the...