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For the rectangular plate with the thickness is t, all the four sidesare subjected to the distributive loading with density as 1 N/m2, and twopoints along y-axis are subjected to the force as 2 N/m. The elastic modulusis E, Poisson ratio v=0. Calculate the equilibrium equation of the structure.
For the rectangular plate with the thickness is t, all the four sidesare subjected to the distributive loading with density as 1 N/m2, and twopoints along y-axis are subjected to the force as 2 N/m. The elastic modulusis E, Poisson ratio v=0. Calculate the equilibrium equation of the structure
For the rectangular plate with the thickness is t, all the four sidesare subjected to the distributive loading with density as 1 N/m2, and twopoints along y-axis are subjected to the force as 2 N/m. The elastic modulusis E, Poisson ratio v=0. Calculate the equilibrium equation of the structure.
For the structure shown, write the static equilibrium equation of the structure in matrix form 2 in terms of EI. Clearly identify your DOF's and their order in the matrix equations. You can neglect axial deformations E 200 GPa, I 300(10)6 mm1 A 101 12 kN/m 2 m 10) mm for each member 4 m 2 m
Using the equation shown below, calculate the equilibrium concentration of N2 given that the equilibrium concentration of H2 is 2.0 M and the equilibrium concentration of NH3 is 0.5 M. For the reaction at this temperature, Kc = 2. N2(g) + 3 H2(g) ⇌ 2 NH3(g)
2. [20 marks]: Hydrostatic equilibrium and the structure of gas giants. The equation of state of material in gas giants is well approximated by P-K 2 for some constant K that depends on the particulars (a) (8 marks) Show that p(r)- Po sin(ar)/(ar) is a solution to the equation of hydrostatic equilib- (b) (6 marks) At the planet surface, ρ(R)-0. Thus, what is the radius and total mass of the planet of hydrogen. rium for an appropriate choice of a....
Calculate the equilibrium constant for the reaction using the balanced chemical equation and the concentrations of the substances at equilibrium. Use the appropriate significant figures in reporting the answers. CO(g) + H2O(g) ⇌ CO2(g) + H2(g) [CO] = 0.0590 M; [H2O] = 0.00600 M; [CO2] = 0.0410 M; [H2] = 0.0410 M K =
10. Using the equation shown below, calculate the equilibrium concentration of each species in a mixture containing 0.0500 M PCls and 5,00 M PCI K for this reaction is 3.33 x 10' at 487 °C. PCs () PC:(8) + Cl() Suvishortliwabidi a llo 11. At equilibrium, the partial pressures of NO2, NO, and O, were found to be 0.200 atm, 0.00026 atm, and 0.600 atm, respectively, in a 1-liter flask. 2NO, (g) 2NO(g) + O2(g) s obomb (a) Write the...
KINETICS AND EQUILIBRIUM Using the Arrhenius equation to calculate k at one temperatur... The rate constant of a certain reaction is known to obey the Arrhenius equation, and to have an activation energy E.=23.0 kJ/mol. If the rate constant of the reaction is 1.2 x 10' M 's at 136.0 °C, what will the rate constant be at 230.0 °C? Round your answer to 2 significant digits. - M .,
Calculate the Entropy of the reaction equilibrium between 2NO2 - N2O4 given the equation: Delta G = Delta H - T Delta S where: Enthalpy = -47.5 Kj/mol Gibbs free energy = -3.59 Kj/mol Temperature = 298K