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- For the truss shown below, determine the forces in members UP, QL, JK. Assign a negative value for tensile forces and positive value for compressive forces. " Q R S U N. H `A DE F G P1 P1 P2 P2 P2 P1 P1 L2 L2 L2-6 -3 -5 9 -7 9. J= 2 1 -5 4 -7 9 5 7 -7 0 a3 a3 0 а b b2 b3 b4 10. K %3D c3 0 C d² 0 d2 d³ 0As seen in the figure, three forces act on point A. Vector the R compound of these three forces. y 4. a Fa a) O R = 341 i - 6j b) O R= 160 i - 383 J c) R= - 110 i - 176 J d) R= - 279 I+ 295 ) e) R= 881 1 - 238 j R= - 65 1- 393 g) R= 93 i- 64) h) R= 406 i - 410)
- The pump in the figure discharges water at 45 lit/s. Neglecting losses and elevation changes, 3. What is the added head?(b) A solid circular rod as in Figure Q1(a) is 600 mm long and 20 mm diameter. The rod is subjected to an axial force of P = 50KN. Upon loading, the elongation of the rod is 8 = 1.40 mm, and its diameter reduce to d' = 19.9837 mm. Determine the modulus of elasticity of the material. Assume that the material does not yield.■ Determine the maximum T of the structural arrangement as shown below (S275). T I 25 25 25 25 25 12 TYPICAL 20 mm THK PL 50 30 30 30 50 T
- the center of part A measured from x-axis is (mm) - 400 mm- 50 mm 200 mm 50 mm 50 mm Select one: О 225 O 100 О 25 O NoneLet w = r = uv, s = u - 30. Use appropriate forms of the r2 + s2" dw dw and du chain rule to find in terms of u and v. du du*2-92. Express each of the forces in Cartesian vector form and determine the magnitude and coordinate direction angles of the resultant force. 0.75 m FAS FAS = 250 N FAC = 400 N 3 m 40 2 m im- -1m- Ргob. 2-92
- Yo 3.5 3/4 1. The cross section shown in the figure is a structural member known as a z- section.Compute the following: (1) cross sectional area, (2) centroidal moment of inertia,lxo. And (3) centroidal moment of inertia, lyo. 2.625 6-4.5- 3/4 3/4 3/4 '1.375 3.5a)Determine C1. b)Determine C2 c)Find h.(Gg+ eS; Prove that: Y = Yw 1+e