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) The free energy change for the following reaction at 25 °C, when [Pb2+] = 1.18...

1) The free energy change for the following reaction at 25 °C, when [Pb2+] = 1.18 M and [Cd2+] = 7.90×10-3 M, is -65.9 kJ: Pb2+(1.18 M) + Cd(s)> Pb(s) + Cd2+(7.90×10-3 M) ΔG = -65.9 kJ What is the cell potential for the reaction as written under these conditions? Answer: ___V Would this reaction be spontaneous in the forward or the reverse direction? 2) Use the standard reduction potentials located in the 'Tables' linked above to calculate the standard...