Determine the magnitudes of the reactions at A, B, and D for the pair of beams connected by the ideal pin at C and subjected to the concentrated and distributed loads. * 25 kN 5 kN/m Hinge -3 m- 3 m 2 m2 m- 4 m -I m Ax = 0; Ay = 12.96 kN;By = 49.4 kN; %3D Dy = 3.67 kN Ax = 0; Ay = 12.96 kN;By = 29.4 kN; %3D %3D Dy = 2.67 kN Ax = 3 kN; Ay = 14.96 kN;By = 29.4 kN; Dy = 2.67 kN %3D Ax = 0; Ay = 12.96 kN;By = 29.4 kN; %3D Dy = 5.67 kN %3D Other:
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- The connected pipes are attached to the wall with a fixed support; i.e. built in. Calculate the reaction forces due to the loading shown. FBD required, can be more sketch like, but must have all reactions drawn and labeled.The 150 N force is parallel to the z axis; −150 k', the 200 N force is parallel to the y axis; 200 j,̂I will assume that all of the moment support reactions(curved arrows) are drawn positive.Determine the support reactions at the the fixed support, A. Neglect the weight and size of the beam. Given data: Distributed load W=50 N/m; Couple C=160 N-m; and the point load P-780 N acting inclined at an angle of 35 in degree with respect to horizontal. W (n/m) P C (N.m) 1.5 m 2 m 4 m Horizontal force component at A along x, AxD Horizontal force component at A along y, Ay= Moment component at A, Ma= N. my= A Ax = Bx = Ex = Number Number 4₁₂ Number C () B W Find the magnitude of the horizontal and vertical components of the pin reactions at A, B, and E, given: W = 25 KN, L₁ = 85 mm, L₂= 110 mm, L3 = 45 mm, Radiuspulley = 4 mm Note, all answers in this problem should be entered as positive values L₂ KN, Ay= kN, By = KN, Ey = Number Number E Number KN KN L3 KN
- Determine the reactions at pin A and rollers B and C of the continuous beam shown below. Note: Express your answers following the standard sign convention for the coordinate system shown. y A Given: Ay = By = Cy= X • L = 12 m • F = 39 kN • qo= 9 kN/m = L -2.49 O 0 qo B F -4/2 L kN kN kN ? ? C X 0% X 0% ? X 0%IK Consider the general case of a prismatic beam subjected to bending-moment components M, and M., as shown, when thex,y,z axes pas throush the centruld of the cross section. Ir the material is nncar-clastic, the aormal stress in the beam is a lincar tunction of position such that =a+by + az. Using the equilibrium conditions 0= f,wai, M, = Szat, M, = ,-ye dt, determine the constants a, D. and c, and show that the normal be determined trom the quation stree can =|-M, +My + (M, + M1/44,-4 where the moments and products of inertia are defined in Appendit A. Prob. 6-6plz help before -ront The shaft is supported at its ends by two bearings A and B and is subjected to the forces applied to the pulleys fixed to the shaft. (Figure 1) The T₁ 410-N forces act in the - direction and the 200-N and 80-N forces act in the +y direction. The journal bearings at A and B exert only y and components of force on the shaft. Figure lashel but sol is 300 mm A 200 mm 2 150 mm 150 mm ✓ 200 mm 400 mm B. 200 N 200 N 80 N 80 N 1 of 1 ▾ Part B Determine the resultant shear force in the y direction on the cross section at C Express your answer to three significant figures and include appropriate units. (Vc)y=245.714 Submit Part C Submit * Incorrect; Try Again; 3 attempts remaining Check your signs. (Vc),= 175 ▾ Part D Determine the resultant shear force in the direction on the cross section at C. Express your answer to three significant figures and include appropriate unite. T= 10 ▾ Part E Previous Answere (Mc) Submit M ^ Part Fi * Incorrect; Try Again; 5 attempts remaining…
- Find the reaction in pin A ? 70% 1 m -1.40 m 0.8 m 1962 NThe compound beam shown in (Eigure 1) is fixed at E and supported by a rocker at A and B. There are hinges (pins) at C and D. The 4-kN load is applied just to the right of the pin at D. Suppose that w = 5 kN/m. Figure 4 kN 6kN I. conf 1 of 1 -2m-2m-2m-3m- 3m ▼ Determine the y component of reaction at A. Express your answer to three significant figures and include the appropriate units. A₁ = Value Submit Part B B, = HA Submit Part C Request Answer Determine the y component of reaction at B. Express your answer to three significant figures and include the appropriate units. Value KN Request Answer ? KN ? Determine the component of reaction at E.. Express your answer to three significant figures and include the appropriate units.10b The 9.75 m long beam is simply supported at A and B as shown below with a uniformly distributed load (UDL) between A and C of 4.75 kN/m and a concentrated point load of 12.50 kN at point D (i.e., midpoint between C & B). Determine the reaction force Rg acting at B in kilonewtons (kN). Assume the beam is weightless and give your answer in kilonewtons (kN) to 2 decimal places. 12.50 kN 4.75 kN/m 1.125 m A 7.50 m 2.25 m B Answer:
- FIND: RESOLVE LOAD P SNTO X ANO FORCES, Ps lo0 N ComponENT6-47 A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and weighs 975 lb. Determine the reactions at supports A and B. 1000 lb 400 Ib/ft 6000 ft-lb B -3 ft -10 ft- 2 ftNote Apr 14, 2023 (4) Apr 14, 2023 at 1:09 PM A B 8m 1014N 8m 8m JJ lokN 8m Jo a) Find the zero Force members in the truss 6) Find the reactions G& Find the forces in menters EF, FH, and 6 & using the Mettal of sections Bm 2 V + S