Determine the value of w, in J, for 1.00 mole of this reaction at 900 K....
Be sure to answer all parts. For each reaction, find the value of ΔSo. Report the value with the appropriate sign. (a) 3 NO2(g) + H2O(l) → 2 HNO3(l) + NO(g) 0.027 J/K (b) N2(g) + 3 F2(g) → 2 NF3(g) J/K (c) C6H12O6(s) + 6 O2(g) → 6 CO2(g) + 6 H2O(g)
The value of AG° is +4,730 J/mole for the reaction N,O.(g) 2NO. (g) at 25°C K= a) Use the value of AG° to calculate the value of K for this reaction at 25°C? b) Calculate the value of Q and of AG if you begin with a concentration of 0.300M N2O4 and a concentration of 1.40 M NO, c) In which direction will the reaction proceed to reach equilibrium under these conditions?
The value of the equilibrium constant K, for the reaction below is 0.631 at 900°C H_() + CO2(g) H2O(g) + CO(g) 1st attempt See Periodic Calculate the value of AG for the reaction kJ/mol 21 OF 29 QUESTIONS COMPLETED < 27/29 > MacBook Air
1At a certain temperature, 659 K, Kp for the reaction, N2O4(g) <=> 2 NO2(g), is 5.4 x 10-69. Calculate the value of DGo in kJ for the reaction at 659 K. 2Given 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 propane to form carbon dioxide and gaseous water at 298 K. S (C3H8(g)) = 271 S (O2(g))...
Use the table to calculate the energy change in J/K of each reaction below (assume standard thermodynamic conditions 1.00 atm and 298.15 K) Substance S (J.mol -1. K -1 Br2 (l) 152.23 HBr (g) 198.59 C (diamond) 2.38 CH4 (g) 186.2 CH3OH (l) 126.8 CO (g) 197.6 CO2 (g) 213.6 O2 (g) 205.0 H2 (g) 130.6 H2O (g) 188.7 N2 (g) 191.5 NO (g) 210.7 NH3 (g) 192.3 NO (g) 210.7 NO2 (g) 240.0 K2CO2 (s) 155.52 KOH (s) 78.91 S (rhombic) ...
Given the values of K shown below, determine the value of K for the reaction, 2 NOCl <=> O2(g) + N2(g) + Cl2(g) 1/2 N2 + 1/2 O2(g) <=> NO(g) K = 0.0848 NO(g) + 1/2 Cl2(g) <=> NOCl(g) K = 0.0388 Give your answer to the nearest whole number
1.) The value of S° for the oxidation of carbon to carbon dioxide, is __________ J/K mol. The combustion of carbon, as in charcoal briquettes, in the presence of abundant oxygen produces carbon dioxide. 2.)The value of S° for the reaction is __________ J/K. 3.)The value of S° for the decomposition of gaseous sulfur dioxide to solid elemental sulfur and gaseous oxygen, is __________ J/K mol. Use the table below to answer the questions that follow. Thermodynamic Quantities for Selected...
Please answer 7-10 if possible, thank you! 13 7. If a reaction has AS-100 J/K and is spontaneous, what must be true of the surroundings? A) ASurnroundings 100 J/k D) ASguroundings <-100 J/k C) &Surroundings 100 J/k B) ASurroundings> -100 J/K E) ASurroundings< 100 J/k 8. Use the following table of S values to calculate the value of AS for each of the following reactions. Nz0601 A. 2NO(g) + H2(g)--+ N20(g) + H2O (g) ΔΗ"(rind) 346 B. 2N20s(g) → 4NO2(g)...
Question 8 Calculate the standard entropy change and report its value in J/K mol for the following reaction: 2AB (g) -+2 A(g) + 6(e) Given: S"[A ] - 286 J/K-mol, S"[B(g)]- 131 J/K-mol, and S"[AB,()] - 849 J/K mol. If the value is negative include the sign. Do not include units. Previous
calculate delta h neutralization in joules per mole for the reaction of 1.00 mol of hno3 with 1.00 mol of naoh 0.0 mL of 1.00M HNO, with 50.5 mL of 1.00M Calculate the heat transferred from the reaction of 50,0 mL of 1.00M HNO, with 50.5 ML OL NaOH solution. Assume the heat capacity of the mixture is 3.89 J 8 deg. (6) Calculate the number of moles of HNO, reacting when 50.0 mL of 1.00M HNO3 and 50.5 mL...