Calculate ∆Gº for the reaction, NO2(g)+N2O(g)→3NO(g), where ∆Gfº=51.8 kJ/mol for NO2(g), 104 kJ/mol for N2O(g), and 86.7 for NO(g):
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Calculate Kp at 298 K for the reaction SO.(g) + NO2()SO3(g)+NO() SO2(g) SO3(g) NO(g) NO2(g) -300.4 k/mol -370.4 kJ/mol 86.7 kJ/mol 51.8 kJ/mol For the reaction 2NO(g)+02(g)- 2NO2( f iniially P(NO)1.5 atm, PO2)-1.4 atm, and P(NOJ-2.0 atrn, calculate Δ@for this reaction at 25°C. The following data is valid at 25°C: NO NO2 AGe(kJ/mol 86.7 51.8
Calculate ΔG°(in kJ/mol) for the reaction NO2(g) + H2O(l) --> HNO3(l) + NO(g). ( unbalanced) Substance ΔGfo(kJ/mol) NO2(g) 51.8 NO(g) 86.7 HNO3(l) -79.9 H2O(l) -237.2 Write answer to two significant figures and correct sign.
Calculate AG°(1V K3/uok) for the reaction NO2(g) + H20(1) -> HNO3(1) + NO(g). (unbalanced) Substance AGfº(kJ/mol) NO2(g) 51.8 NO(g) 86.7 HNO3(0) -79.9 H2O(0) -237.2 Write answer to two significant figures and correct sign.
Calculate ΔG°(in kJ/mol) for the reaction NO2(g) + H2O(l) --> HNO3(l) + NO(g). (unbalanced) Question 7 Calculate AG°(in kJ/mol) for the reaction NO2(g) + H2O(0) --> HNO3(1) + NO(g). (unbalanced) Substance AGF(kj/mol) NO2(g) 51.8 NO(g) 86.7 HNO3(0) -79.9 H2O(l) -237.2 Write answer to two significant figures and correct sign.
Find the value of the equilibrium constant, Kp, for the following reaction N2O(g) + NO2(g) → 3NO(g) at 900 K given the following data: N2O(g): AGfº=149.2 kJ/mol; NO2(g): AGfº=89.4 kJ/mol; NO(g): AGfº=79.0 kJ/mol. 0.192 1.21 1.00 0.826 O 1.43
Calculate ∆Gº for the reaction, CH4(g)+2O2(g)→CO2(g)+2H2O(g), where ∆Gfº=-50.8 kJ/mol for CH4(g), -394 kJ/mol for CO2(g), and -229 kJ/mol for H2O(g).
Substance AGP (kJ/mol) AS (J/mol K) NO (g) 86.7 211 NO2 (g) 51.8 240 NOCI (g) 66.3 264 N20 (g) 103.6 220 What is the value of AH° (in kJ) at 25.0 °C for the reaction: N20 (g) + NO2 (g) → 3 NO (g) 5.5 kJ 53.2 kJ 109 kJ 156.2 kJ
Calculate ∆Gº for the reaction, CH4(g)+2O2(g)→CO2(g)+2H2O(g), where ∆Gfº=-50.8 kJ/mol for CH4(g), -394 kJ/mol for CO2(g), and -229 kJ/mol for H2O(g): 572 kJ -801 kJ -572 kJ 801 kJ
1. Calculate A Gº for the reaction at 25°C 2 SO2(g) + O2(g) → 2 SO3 (g), given that AHº is -197.7 kJ mol- and A.Sº is -188 JK' mol!
2. Calculate K for the reaction: IC (g) at 298 K CH,(g) + 3Cl2(g) = CHCI;(8) + 3HCI(g) at 2 A/Gº(CH.(g)) = -50.72 kJ/mol A,Gº(CHCI (g)) = -71.1 kJ/mol AG°(HCl(g)) --95.30 kJ/mol 10-14 at 25 °C. Find the value of K, 3. For the following chemical equilibrium, Kp = 4.6 x 10-14 at 25 for this reaction at 25 °C. 2012(g) + 2 H2O(g) = 4 HCI(g) + O2(g)