scenes M8.21 Precast concrete beam and corbel 12 kN 130 mm Determine the normal stresses at...
M8.16 The transformed-section method scenes 210 mm 28 mm E 160 GPa E=90 GPa 76 mm K 240 mm y (mm) A composite beam cross section consists of two rectangular bars securely bonded together. The beam is subjected to a bending moment M = 20 kN-m that produces compression stress at H Determine: Oн (MPa) a) the vertical distance from K to the horizontal centroidal axis Ок (MPa) b) the bending stress produced at H c) the bending stress produced...
M8.20 C-clamp normal stresses scenes Width 140 mm 16 kN Thickness 22 mm 55 mm B CA (MPa) Determine the normal stresses at A and B (+ = tension, compression). -= Ов (MPа) Try one 1st 2nd 3rd enter attempt
M5.8 Rigid bar with opposing members scenes Determine the internal forces and normal stresses in bars (1) and (2). (+ = tension, - = compression) Bar properties Also, determine the deflection of the rigid bar in the 300 mm x direction at c. Ey = 140 GPa 600 mm Az = 300 mm 140 GPa A, = (2) F. (kN) 610 mm F (kN) 40 KN (MPa) 810 mm (MPa) 750 mm 610 mm V mm 1 2 3 attempt...
M5.5 Rod and post in series scenes Rod properties A- 340 mm2 E1 80 GPa A2-520 mm2 E2 160 GPa 65 kN F1 (kN 2000 mm 2800 mm A composite axial structure consists of two rods joined at flange B. Rods (1) and (2) are attached to rigid supports at A and C, respectively. kN ?i (MPa A concentrated load P is applied to flange B in the direction shown. Determine the internal forces and normal stresses in each rod....
scenes M4.3 Load capacity of beam-strut structure The structure supports a distributed load of w. The limiting stress in rod (1) is 380 MPa, and the limiting stress in each pin is 220 MPa. If the minimum factor of safety for the structure is 1.60, determine the 2 m maximum distributed load magnitude w that may be applied to the structure plus the stresses in the rod and pins at the maximum w. 14-mm-diam. pin Home Chap 1. Stress Chap...
M5.8 Rigid bar with opposing members scenes the internal forces and normal stresses bars (1) and (2). (+ = tension, - = compression) Bar properties Also, determine the deflection of the rigid bar in the A = 400 mm? x direction at C. E = 100 GPa 400 mm A2 = 400 mm? Ez = 100 GPa (2) F. (kN) 510 mm FkN - 70 KN (MPa) 680 mm 02 (MPa) 500 mm 510 mm ve (mm) Try one 1...
M15.3 Principal stresses in a rectangular tube scenes The rectangular tube is subjected to a transverse shear force of V = 230 kN and a bending moment of M = 530 kN-m, each acting in the directions shown. Determine the bending stress, the transverse shear stress magnitude, the principal stresses, and the maximum shear stress magnitude acting at location H. У Он (MPa) H 550 mm TH (MPa) 65 mm Op1 (MPa) X Op2 (MPa) 12 mm ITmax (MPa) wall...
please show how they got the answers also please show how they found Qh becuse it is not given. scenes M15.2 Principal stresses in a tee beam The inverted tee shape is subjected to a transverse shear force of V = 110 kN and a bending moment of M = 50 kN-m, each acting in the directions shown. Determine the bending stress, the transverse shear stress magnitude, the principal stresses, and the maximum shear stress acting at location H. 14...
Please show work. M1.13 Force based on inclined plane stresses scenes a 500 P 40 mm a The bar has a 40 mm by 20 mm rectangular cross section. The allowable normal and shear stresses on inclined surface a-a must be limited to 55 MPa and 30 MPa, respectively. Determine the magnitude of the maximum axial force P that can be P (kN) (MPa) applied to the bar, and determine the actual normal and shear stresses acting on inclined plane...
Please show work :D M5.13 Rod and post with temperature change scenes 190 mm2 AT = 25°C 120 GPa = 15.7 x10-/C 40 kN (1) 290 mm2 (2) 200 GPa A B 17.7 x10-/C 2700 mm 1900 mm F (kN) A composite axial structure consists of two rods joined at flange B. Rods (1) and (2) are attached to rigid supports at A and C, respectively. A concentrated load P is applied to flange B in the direction shown. F2...