Three forces are applied to the machine component ABD as shown. Knowing that the cross section...
Two forces 3 kN and 2.5 kN are applied to the machine component ABD as shown in Figure 3. Given that the cross section containing the point H is a rectangle of dimensions 20mm x 10mm, determine the following a. Draw the free body diagram at H, and indicate the reaction forces/moments. b. Indicate the state of stress at Point H and the components of stress in the proper directions on a stress block or stress element (as indicated in...
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...
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 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 cantilever beam, with a rectangular cross section, is subjected to loads P, Q and R, as illustrated in the figure below. Given, P 100 kN, Q 15 kN and R 10 kN, determine the principal stresses and the maximum in-plane shearing stress at point B. Also, determine the planes on which the principal stresses act, and the planes on which the maximum in-plane shear stress acts. The vertical dimension (depth) of the beam is 120 mm. 40 mmA 2...
00 Several forces are applied to the pipe assembly shown. Knowing that Q = 230 lb and that the pipe has inner and outer diameters equal to 1.61 in. and 1.90 in., respectively, determine the normal and shearing stresses at point Hand point K. (Round the final answers to decimal places.) 10 points eBook 150 lb Hint 10 in Print 150 lb References 6 in 50 lb The normal stress at point His The shearing stress at point His The...
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
everal forces are applied to the pipe assembly shown. Knowing that each section of pipe has inner and outer diameters equal to 36 and 42 mm, respectively, determine the normal and shearing stresses at point H located at the top of the outer surface of the pipe. 175 T] 21 11 5 150H 100N Dimensions in mm
3. Two vertical forces are applied to a beam of the cross section as shown in Figure 3 Determine the maximum tensile and compressive stresses in portion BC of the beam 20 marks) (CLO3:PLO3:C4) 75 65 kN 65 kN A B 50 mm 50 mm Figure 3
Q.1) The cross-section shown below of a simply supported beam is subjected to a maximum shear force of 20 kN. Determine the corresponding shearing stress at points a and b. Also determine the maximum shear stress in the cross- section and state its location 40 mm 4 mm 60 mm 14 mm 4 mm 20 mm 28 mm 20 mm
PROBLEM 6.38 An extruded beam has the cross section shown and a uniform wall thickness of 5 mm. Knowing that a given vertical shear V causes a maximum shearing stress = 60MPa, 1) determine the shearing stress at the four points indicated 2) calculate the shearing stresses along of the horizontal lines shown and plot carefully the vertical distribution of shearing stresses in the cross-section. 15 mm) a 15 mm t6 d 15 mm 15 mm 15 mm 38 mm...