Calculate delta G rxn at 25^oC for the reaction below 2A(ag) + B(ag)---C(ag) +D(g) if deltaG^o...

Use the table to calculate delta G rxn for the following reaction at 25 degree C....

Use the table to calculate delta G rxn for the following reaction at 25 degree C. A.) 2Mg(s) +O2(g) --> 2MgO(s) B.) 2SO2(g) +O2(g) --> 2SO3(g) C.) 2C2H2(g) + 5O2(g) --> 4CO2(g) + 2H2O(l) Species           Delta G (kJ/mol) Mg(s)               0 O2 (g)              0 MgO(s)            -255.0 SO2(g)            -300.57 SO3(g)            -370.53 C2H2(g)          168.43 CO2(g)            -394.65 H2O(l)             -237.35 H2O(g)            -228.77

1- Calculate ΔG o for the following reaction at 25°C. You will have to look up...

1- Calculate ΔG o for the following reaction at 25°C. You will have to look up the thermodynamic data. 2 C2H6(g) + 7 O2(g) → 4 CO2(g) + 6 H2O(l) 2- A reaction will be spontaneous only at low temperatures if both ΔH and ΔS are negative. For a reaction in which ΔH = −320.1 kJ/mol and ΔS = −99.00 J/K ·mol,determine the temperature (in °C)below which the reaction is spontaneous.

3)The following reaction, calculate ΔH∘rxn(in kJ), ΔS∘rxn(in J/K), and ΔG∘rxn(in kJ) at 25 ∘C. NH4Cl(s)→HCl(g)+NH3(g) 4)...

3)The following reaction, calculate ΔH∘rxn(in kJ), ΔS∘rxn(in J/K), and ΔG∘rxn(in kJ) at 25 ∘C. NH4Cl(s)→HCl(g)+NH3(g) 4) Electrons flow from right to left (anode to cathode). Anode=Cr(s) in 1M Cr3+ cathode= Fe(s) in 1M Fe3+. A salt bridge containing KNO3(aq) between the beakers. a) Write a balanced equation for the overall reaction. b)Calculate E∘cell. 5)Electrons flow from Right to left (anode to cathode). Anode=Ni(s) in Ni2+ cathode= Cd(s) in Cd2+ a)Indicate the half-reaction occurring at Anode and cathode b)Calculate the minimum...

For the reaction 2A (g) + B (aq) + 3 C (`) −−)−−* D (s) +...

For the reaction 2A (g) + B (aq) + 3 C (`) −−)−−* D (s) + 3 E (g), the concentrations at equilibrium are found to be PA = 2.8 × 103 Pa [B] = 1.2 × 10−2 M [C] = 12.8 M PE = 2.6 × 104 Torr (a) Find the numerical value of the equilibrium constant. (b) Calculate ∆G◦ . (c) Is the reaction spontaneous as written?

Calculate Delta G° for the following reaction at 25°C: 3Zn2+(aq) + 2Al (s) = 3Zn (s)...

Calculate Delta G° for the following reaction at 25°C: 3Zn2+(aq) + 2Al (s) = 3Zn (s) + 2Al 3+(aq) Delta G° = ? kJ/mol

For the reaction:                                 2 C (s) + H2(g) →C2H2(g) a) Calculate the enthalp

For the reaction:                                 2 C (s) + H2(g) →C2H2(g) a) Calculate the enthalpy of reaction (DHrxn) from the following reactions: Reaction                                                             Δ Hrxn(kJ/mol)2 C2H2(g)+ 5 O2(g) → 4 CO2(g) + 2 H2O (l)              -2599.2 C (s) + O2(g) → CO2(g)                                            - 393.5 2 H2(g) + O2(g) → 2H2O (l)                                      -571.8 b) If the DS for the reaction is equal to 652 J/mol, and the reaction proceeds at 25°C, would you expect the reaction to be spontaneous?

At 25 C, the equilibrium constant for the reaction 2A(g) <-> B(g) + C(g) is Kp...

At 25 C, the equilibrium constant for the reaction 2A(g) <-> B(g) + C(g) is Kp = 0.0833. If the three gases are mixed in a rigid container having partial pressure of 2.58, 1.71 and 0.307 atm for A, B and C, respectively, is the system at equilibrium? Potential answers: The forward reaction must proceed to establish equilibrium, The volume of the container must be known to answer the question, The concentrations of all substances must be known to answer...

-4 Question 1: The standard formation enthalpies at 25.00 ° C for methanol (CH4O (1)), water...

-4 Question 1: The standard formation enthalpies at 25.00 ° C for methanol (CH4O (1)), water (H2O (1)) and carbon dioxide (CO2 (g)) are respectively -238.7 kJ mol, 285.8 kJ / mol, and -393.5 kJ / mol. Calculates the change in the environment (in J / K) when burning 13.5 g of methanol under a constant pressure of 1,000 atm at 25.00 oC (NB, combustion is the reaction of a substance with oxygen) Molecular to produce water and carbon dioxide)....

1. A metabolic reaction A↔ B has ∆G°’ = 7.5 kJ/mol This metabolic reaction takes place...

1. A metabolic reaction A↔ B has ∆G°’ = 7.5 kJ/mol This metabolic reaction takes place in solution in the human body and there are no solids or gases involved. a) Calculate Keq for the reaction at 25°C b) Calculate ∆G for the reaction at 37°C, when [A] = 0.5 mM and [B] = 0.1 mM. Is the reaction spontaneous under these conditions? c) How can the reaction’s direction in the cell be changed without changing the temperature? Be logical...

1)calculate the equilibrium constants at 25∘C for each reaction. Part A 2NO(g)+O2(g)⇌2NO2(g) Express your answer using...

1)calculate the equilibrium constants at 25∘C for each reaction. Part A 2NO(g)+O2(g)⇌2NO2(g) Express your answer using two significant figures. Part B N2(g)+O2(g)⇌2NO(g) Express your answer using two significant figures. 2) Calculate the change in Gibbs free energy for each of the following sets of ΔHrxn, ΔSrxn, and T. Part A ΔH∘rxn=+ 85 kJ , ΔSrxn=+ 155 J/K , T= 298 K Express your answer as an integer. Part B ΔH∘rxn=+ 85 kJ , ΔSrxn=+ 155 J/K , T= 753 K...