Given the following equation, H?O (?) + CO(?) ⟶ H? (?) + CO? (?) ΔG∘??? = -28.6 kJ
Calculate ΔG∘??? for the following reaction. 5 H? (?) + 5 CO? (?) ⟶ 5 H?O (?) + 5 CO(?)
Select one: a. -143.0 kJ b. +143.0 kJ c. 28.6 kJ d. -5.72 kJ e. +5.72 kJ
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Given the following equation, H?O (?) + CO(?) ⟶ H? (?) + CO? (?) ΔG∘??? =...
Given the following equation, H2O(g) + CO(g) - H2(g) + CO2(g) AGºrx = -28.6 kJ Calculate AGºrxn for the following reaction. 8 H2(g) + 8 CO2(g) -> 8H2O(g) + 8 CO(g) O +3.57 kJ - 3.57 kJ 0 - 228.8 kJ -28.6 kJ + 228.8 kJ
Given the following equation, N2O(g) + NO2(g) → 3 NO(g) ΔG°rxn = -23.0 kJ Calculate ΔG°rxn for the following reaction. 18 NO(g) → 6 N2O(g) + 6 NO2(g) -3.83 kJ -23.0 kJ 138 kJ -138 kJ 23.0 kJ
Given the following equation, N2O(g) + NO2(g) → 3 NO(g) ΔG°rxn = -23.0 kJ Calculate ΔG°rxn for the following reaction. 18 NO(g) → 6 N2O(g) + 6 NO2(g) -3.83 kJ -138 kJ 23.0 kJ -23.0 kJ 138 kJ
Given the following information A+B-→ 2D ΔH。=-70 1.3 kJ AS" = 344.0 J/K C-D ΔΗ'-465.0 kJ AS. -143.0 J/K calculate ΔG° at 298 K for the reaction A+ B2C kJ
For reactions carried out under standard-state conditions, the equation ΔG = ΔH − TΔS becomes ΔG° = H° − TΔS°. Assuming ΔH° and ΔS° are independent of temperature, one can derive the equation: ln( K2 K1 ) = ΔH° R ( T2 − T1 T1T2 ) where K1 and K2 are the equilibrium constants at T1 and T2, respectively. Given that at 25.0°C, Kc is 4.63×10−3 for the reaction N2O4(g) longrightleftarrow 2NO2(g) ΔH° = 58.0 kJ/mol calculate the equilibrium constant...
What is ΔG° for the following electrochemical equation? (E°red(K+/K) = –2.931 V, E°red(Ca2+/Ca) = –2.868 V) 2K(s) + Ca2+(aq) → 2K+(aq) + Ca(s) Select one: a. –12 kJ/mol b. –24 kJ/mol c. –6 kJ/mol d. 12 kJ/mol
Calculate ∆H for the reaction 2 C(s)+H2( g)→C2H2( g), given the following information: C2H2(g)+5/2 O2(g)→2 CO2(g)+H2O(l) ∆H=-1299.6kJ C(s) + O2( g)→CO2( g) ∆H= -393.5 kJ H2( g)+1/2 O2( g)→H2O (l) ∆H= -285.8 kJ
Given the following: phosphocreatine → creatine + Pi ΔG = −43.0 kJ/mol ATP → ADP + Pi ΔG = −30.5 kJ/mol What is the overall ΔG for the following Reaction? phosphocreatine + ADP → creatine + ATP A) -12.5 kJ/mol B) + 73.5 kJ/mol C) -73.5 kJ/mol D) + 12.5 kJ/mol
4. Given the following standard enthalpy of formations: AH° C,H,OH() =-277.7 kJ/mol]; AHO [CH CO H) = 484.5 kJ/mol]; AH° [HO) = -285.8 kJ/mol]; AH° (O,(g) 0 kJ/mol] UnvIL Calculate the LDH for the reaction. CH.OHI)+0,(g)- CH,CO,H() H,O()
Consider the following reaction: CO(g) + 2 H2(g) → CH2OH (9) AH = -90.7 kJ Calculate the amount of heat transferred when 107.3 g of CH2OH is synthesized by the above reaction at constant pressure. Select one: oa. -90.7 kJ ob. 9.732 x 102 kJ O C. 3.037 x 102 kJ O d. -3.037 x 102 kJ o e. 9.732 x 10 kJ Consider the following reaction: CO(g) + 2 H2 (g) → CH3OH (9) AH = -90.7 kJ For...