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The shaft is supported by a smooth thrust bearing at A and smooth journal bearing at C. If d = 3 in., determine the absolute maximum bending stress in the shaft.
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- 2-98 Three forces are applied with cables to the anchor block shown in Fig. P2-98. Determine The magnitude and direction (angles B, By, and 0) of the resultant R of the three forces. 0.6 m F = 272 N F- 500 N Fj= 650 N F1 2.7 m 13.6 m 1.8 m F3 2.7 m 3,6 m 0.9 m 1.2 m mThe horizontal and vertical components of several forces are: (a) P₁ = -200 lb and F=-200 lb; (c) Th=-50 lb and T = -90 lb. P100 lb; (b) F₁ = 300 lb and Determine the forces P, F and T.2:28 Today Edit 2:26 PM Problem Number 2: A horizontal boom 11.5 M in length, AE is supported by guy wires from A to B,C and D. If the tensile load in AD = 360 KN, find the forces in AC and AB so that the resultant force on A will be horizontal. What is the resultant force of the 3-force system? в м Y+ D SM 2.5M 8M 3.OM 1.5M 1.5M 6M 6M A Z+ 10M 1.5M X+
- 2-9. Determine the resultant force on the lever shown in Figure P2-9. 20° 20 lb 30 lb FIGURE P2-9A |100 lb B +2+ 4 ft - 180 lb с - 3 -1. For two interconnected hydraulic cylinders shown in Figure 1, it is known that the inner diameter of the large cylinder is D=100mm, the inner diameter of the small cylinder d=20 mm, and the gravity generated by the objects placed on the big piston is F2=50000N. Try to find out how much force F1 should be applied to the small piston to make the big piston lift the heavy load ). The pressure of the system is ( F1 A1 A2 d Fig. 1
- Q1-B- Draw just the Free Body Diagram of the following figures. 30 kN/m C - 3 m - 3 m --- 4 kN/m - 3 m 8 kN/m 4 m 10 kN/m 2 kN/m سال آینده ¡N/m 80 kN/m2. The beam is subjected to the loadings is shown in Figure Q2. Determine the equation of the elastic curve (deflection), by using the Macaulay function. EI is constant.2-95 Four forces are applied at a point in a body as shown in Fig. P2-95. Determine the magnitude and direction (an- gles 6, By, and 6,) of the resultant R of the four forces. F= 300 Ib 30 F3= 150 Ib 60 3 ft F2 = 250 Ib F = 200 lb
- Calculate T1, T2 and T3 . 55° T1 T2 15° T3 50 kgPS2-5 Three forces are acting on the problem. List all of the simplifications that can be used in the problem. What is the simplest problem? F₂ 45° R2-98 Three forces are applied with cables to the anchor block shown in Fig. P2-98. Determine c. The angle a between forces F, and F3. 0.6 m F = 272 N F- 500 N Fj= 650 N F1 2.7 m 13.6 m 1.8 m F3 2.7 m 3,6 m 0.9 m 1.2 m m