Find σC given the following values: Cexperimental = 336.35 m/s, Ctheoretical = 344.2 m/s, d =...

given the following information A+B->2D delta H=-710.9kJ delta S= 298.0J/K C->D     delta H =515kJ delta S=-192...

given the following information A+B->2D delta H=-710.9kJ delta S= 298.0J/K C->D     delta H =515kJ delta S=-192 J/K calculate the delta G for the following reaction at 298K. A+B->2C **PLEASE SHOW WORK**

Given the following information A + B --> 2D delta H =684.9kJ delta S= 298.0J/K C...

Given the following information A + B --> 2D delta H =684.9kJ delta S= 298.0J/K C --> D delta H= 503.0kJ delta S=-103.0J/K calculate ΔG° for the following reaction at 298 K. A + B --> 2C

1. Given the values of So given below in J/mol K and the values of ΔHfo...

1. Given the values of So given below in J/mol K and the values of ΔHfo given in kJ/mol, calculate the value of ΔGo in kJ for the combustion of 1 mole of butane to form carbon dioxide and gaseous water at 298 K. S (C4H10(g)) = 273 S (O2(g)) = 208 S (CO2(g)) = 214 S (H2O(g)) = 189 ΔHfo (C4H10(g)) = -123 ΔHfo (CO2(g)) = -394 ΔHfo (H2O(g)) = -223 2. A particular reaction has a ΔHo value...

For air with temperature and dew-point values given below in °C, find the LCL value (km)....

For air with temperature and dew-point values given below in °C, find the LCL value (km). T, Td T, Td e. 10, 5 k. 20, 10

1. Solve the given initial value problem. dy/dt = (t^3 + t)/(y^2); y(0) = 2 ....

1. Solve the given initial value problem. dy/dt = (t^3 + t)/(y^2); y(0) = 2 . 2. We know from Newton’s Law of Cooling that the rate at which a cold soda warms up is proportional to the difference between the ambient temperature of the room and the temperature of the drink. The differential equation corresponding to this situation is given by y' = k(M − y) where k is a positive constant. The solution to this equation is given...

Two bars, A and B, each of length 2.0 m and cross sectional area 1.0 m2,...

Two bars, A and B, each of length 2.0 m and cross sectional area 1.0 m2, are placed end to end as shown in the figure. The thermal conductivities of the bars are kA = 439 J/(s ⋅⋅ m ⋅⋅ K) and kB = 887 J/(s ⋅⋅ m ⋅⋅ K), respectively. The left end of bar A is maintained at 373 K while the right end of B is maintained at 273 K. Which one of the following statements is...

5. For a given reaction Delta H Standard = -45 kJ and Delta S Standard =...

5. For a given reaction Delta H Standard = -45 kJ and Delta S Standard = -103 J/K. A. Is the reaction spontaneous? At what T does it become spontaneous? B. What is Delta G at 450 K?

Apply the Free Energy equation to identify whether reactions with the following values of delta H...

Apply the Free Energy equation to identify whether reactions with the following values of delta H and Delta S are spontaneous or nonspontaneous and whether they are exothermic or endothermic: a. delta H = -128 kJ; delta S = 35 J/K at 500k b. delta H = +67kJ; delta S= -140 J/K at 250k c. delta H = +75 kJ; delta S = 95J/K at 800k

Find the temperature (in K) above which a reaction with a delta H of 123.0 kJ/mol...

Find the temperature (in K) above which a reaction with a delta H of 123.0 kJ/mol and a delta S of 90.0 J/K×mol becomes spontaneous. Use four significant figures. T=________K

Calculate So values for the following reactions by using tabulated So values from Appendix C. (a)...

Calculate So values for the following reactions by using tabulated So values from Appendix C. (a) N2H4(g) + H2(g)--> 2 NH3(g) S = J/K (b) N2O4(g) --> 2 NO2(g) S= ___J/K (c) Be(OH)2(s) --> BeO(s) + H2O(g) deltaS= ___J/K (d) 2 NOCl(g) Æ 2 NO(g) + Cl2(g) delta-S = ___J/K