solve with explanasion 3. Determine the largest moment M that can be applied to the aluminum...
solve with explanasion please
5. The composite beam shown below is made of copper and aluminum. Calculate the maximum normal stress in the copperand in the aluminum due to bending from the applied loads. (15 pts) Ecopper = 117,000,000 kPa Ealuminum = 69,000,000 kPa 30 kN 50 KN 40 KN III Aluminum А E Copper 9 mm 3 mm 24 mm -4 @ 0.675 m = 2.7 m
Using an allowable stress of 154 MPa, determine the largest bending moment M that can be applied to the wide-flange beam shown. Neglect the effect of fillets. (Round the final answer to one decimal place.) 12 mm 12 mm 200 mm The largest bending moment that can be applied is KN-m.
solve with explanasion please
2. The 20 mm diameter stainless steel shaft shown is fixed at A and B. Calculate the maximum shear stress in the shaft. (15 pts) 200 Nm 1 m 500 N·m 1.5 m
65 kN 45 kN/m 35 kN/m 1 m A36 Steel .Factor of safety must be 3.0 with respect to yielding in tension or compression and 3.5 with respect to yielding in shear .Determine which beam will be lightest 1) Draw a shear force and moment diagrams of the beam with maximums shown and non-linear curves sho wn. 2) Tentatively select a beam based on max normal stress 3) Check the tentatively selected beam for max shear 4) Find and identify...
65 kN 45 kN/m 35 kN/m DI El A36 Steel . Factor of safety must be 3.0 with respect to yielding in tension or compression and 3.5 with respect to yielding irn shear. . Determine which beam will be lightest. 1) Draw a shear force and moment diagrams of the beam with maximums shown and non -linear curves shown. 2) Tentatively select a beam based on max normal stress 3) Check the tentatively selected beam for max shear 4) Find...
solve 1 and 3 please
Wut unte. 02/06/2020, 12:00pm) Problem 1 (50 pts): For the beam shown, a) Determine the reaction forces at the supports b) Derive the loading, shear-force, and bending moment relationships (g(x), and c) Draw the V(x) and M(x) graphs and identify the locations of the maximum shear force and bending moment along the beam d) Determine the maximum tensile and compressive stresses e) Determine the maximum shear stress due to V 13 kN 50 mm --...
Calculate and plot the shear force V and bending moment M
everywhere on the beam; Calculate the maximum normal stress and
maximum shear stress experienced by the beam anywhere along its
length; What would the tensile yield strength oy need to
be and what would the shear yield strength ty need to be
in order for the beam to have a Safety Factor of 3 against failure
in both tension and shear
501 50 1 150b 3 in. 12 in....
answered to receive full credit. 3. (20 pts) For the L-section beam as shown in Fig- ure 3 which is subjected to a positive bending moment about the z-axis of 90 kN·m, determine 1. (20 pts) Consider the beam with loading shown in Figure 1. (a) Draw the shear and moment diagrams. (a) the location of the centroid (2,P) relative (b) If the beam is constructed from A-36 struc- tural steel, determine the minimum top and bottom section modulii such...
solve this question by writing a code in MATLAB
3. Abending member with a rectangular cross section is made of ABS plastic and has dimensions, as defined in Fig. 8.13(a), of b = 28 mm and t = 10 mm. For a safety factor against brittle fracture of 3.2, determine the largest through-thickness edge crack length, a, that can be allowed if: a. M = 15 N·m. b. M = 4.0 N-m. 4. What are the safety factors against fully...
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(15 pts.) A bending moment M is applied to the beam section shown in Figure 1. If the highest compressive stress due to the loading is 60MPa, determine a) the moment M applied to the section and, b) the orientation of the neutral axis. 20° B 50 mm 5 mm 5 וחוון M D E 5 mm 50 mm 18,57 mm 1 = 281 x 10 mm 1. - 176,9 x 103 mm Figure 1 "LEGAL AND...