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E E0.25m- .6 m 24De6m Given AS4-K bar hanging stcinjs 31 m I.5 m two ia...
hau А 1.6mE to.25mm *.257 De 1.6mk Gliven * A 54-kg bar is hanging by - two 1. 5m strings. * The bar is 3.7 m in length, point A lies at the center. Required: * * Determine Find the the value tension in of each o cable (B12, CE
The two uniform bars are identical. The mass and length of each bar are m= 30 kg and L=1.6 m. The top bar rotates around point A, coordinate , locates the bar, and force F(t) = 500 sin 60t (in N) is being applied to the end of the bar. A spring with k = 10000 N/m connects the top bar to a fixed point. The bottom bar rotates around its center at point B and coordinate 0g locates this...
Page 6 (5) At 298 K and I bar pressure, the density of water is 0.9970 cm the coefficient of thermal expansion is 2.07x10 K and C 75 3 J m ol. If the temperature of 282 g of water is increased by calculate w. 4. AU, AH and AS (20 pts)
Problem 22.33 A bar magnet whose dipole moment is (0, o, 4) A-m2 has a constant velocity of (0, 0, 6) m/s. When the center of the magnet is at location (1, 6, 5) m, E=0 0 N/C Problem 22.33 A bar magnet whose dipole moment is (0, o, 4) A-m2 has a constant velocity of (0, 0, 6) m/s. When the center of the magnet is at location (1, 6, 5) m, E=0 0 N/C
Question 6 Ci m, I k2 Figure Q6 A unform bar of mass m and length is pivoted at C as indicated in Figure Q6 The bar carries a mass M at D and is supported by springs kt, k2 and dampers c1, r3 as shown Let , 12, 13 be the displacements at the positions shown when the system is given a small angular displacement θ from the equilibrium horizontal position Given that C and D are distances 4...
Given M 5 i +4- 3 k and N 6 i- 3 j - k, calculate the vector product M x N. 8 Review the definition of the cross product in term of components. i + Need Help? LReadIt 11 watch lt
Question 3 The structure shown in Figure Q(3) is a two-bar truss with spring support. Both bars have modulus of elasticity and cross-sectional area of E- 210 GPa and A -5.0 x10 m. Bar one has a length of 5 m and bar two a length of 10 m. The spring stiffness is k -2000 kN/m. CVE 4303(F) Page 2 of 4 Determine (a) the stiffness matrix for each of the three elements (15 marks) (b) the normal stresses in...
Consider a long solid bar (k=30W/m K and α 12X10-6 m /s) ofAare cro s section that is initially at uniform room temperature of 150° C. The cross seftion of the bar is 20 cm X 20 cm in size. All four side of the bar are subjected to donJeation td the ambient air at T-25oC with a heat transfer coefficient of h t45 W/m2K. Using the explicit finite difference method with a mesh Δ x = Δ y-10cm</determine the...
only question e, f, i, j, k You will need graph paper, a calculator, a copy of Appendix I from lesson HTC- 4 2 and access to steam tables to answer this TMA l. A fuel gas consists of 75% butane (C4H10), 10% propane (C3H8) and 15% butene (C,H,) by volume. It is to be fed to the combustion chamber in 10% excess air at 25°C, where it is completely burnt to carbon dioxide and water. The flue gases ane...
Consider a long solid bar (K=45 W/m*k and ∝=12x10-6 m2/s) of square cross section that is infinity at uniform temperature of 450°C. The cross section of the bar is 20cmx20cm in size. All four sides of the bar are subjected to convection of ambient air at T=20°C with a heat transfer coefficient of (h=40 W/m2*K) Using the explicit finite difference method with a mesh (Δx=Δy = 10 cm), determine the centerline temperature “C” of the bar after 5 minutes. Question...