900 lb/ft b. 60° 3 ft | 30° 6 ft
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Determine the resultant internal loadings acting on section b–b through the centroid C on the beam.
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- Derive an expression for the differential scattering cross section of a mass m subject to the force k F r3 erCalculate the support reaction force for the uniformly distributed load below, where w= 69 N/m and LAB= 3 m. The downward direction is denoted as positive direction. (a) The support reaction force at point A, be careful of the sign. RAx =__ (N) RAy =__ (N) (b) The support reaction force at point B, be careful of the sign. RBy =__ (N)Prob. 4.4-6. (a) determine the maximum tensile stress, the maximum compressive stress, and the maximum shear stress; and (b) show the stresses determined in Part (a) on properly oriented stress elements (e.g., see Fig. 4.14). In solving these problems, make the sense of the stresses consistent with the sense of the torque T shown on the generic torsion member figure. T= 400 N m, d = 40 mm, and d = 0₁ 32 mm. =relative twist angle 45° (b) FIGURE 4.14 A pure- shear element, and the associ- ated maximum-normal-stress element.
- Give me the right solution, Strictly avoid Ai answer.Needs Complete solution with 100 % accuracy don't use chat gpt or ai plz plz plz.A high-carbon steel with a fully pearlitic microstructure was used to form a high-strength bolt (H.-C. Lee et al., J. Mater. Proc. Tech. 211, 1044 (2011)). It was found that the bolt head had an average interlamellar spacing of 257 nm whereas the average spacing in the body of the bolt was 134 nm. Assuming that dislocation pileup is the primary mechanism responsible for the strength of this alloy, what ratio of strength (or hardness) might be expected in the head and body of the bolt?
- Find the centroid of the homogeneous lamina. Assume r = 4. 2r- 2r (x, y) = X (Hint: The moments of the union of two or more nonoverlapping regions equ regions.) (Use symbolic notation and fractions where needed. Give your answer as poiIn the figure below, suppose the length L of the uniform bar is 3.50 m and its weight is 240 N. Also, let the block's weight W = 350 N and angle 0 30°. The wire can withstand a maximum tension of 500 N. C - X→ com В (a) What is the maximum possible distance x before the wire breaks? (b) With the block placed at this maximum x, what is the horizontal component of the force on the bar from the hinge at A? N (right) (c) What is the vertical component of this force? N (up)