For the reaction of A + Bà C +D, what is the actual free energy if...

A reaction A + B <==> C has a standard free-energy change of -4.29 kj/mol at...

A reaction A + B <==> C has a standard free-energy change of -4.29 kj/mol at 25C What are the concentrations of A, B, and C at equilibrium if at the beginning of the reaction their concentrations are 0.30M, 0.40M and 0M respectively? How would your answers above change if the reaction had a standard free-energy change of +4.29 kj/mol? ____ there would be no change to the answers. ____ All concentrations would be lower. ____ All concentrations would be...

has a standard free-energy change of –3.63 kJ/mol at 25 °C. What are the concentrations of...

has a standard free-energy change of –3.63 kJ/mol at 25 °C. What are the concentrations of A, B, and C at equilibrium if, at the beginning of the reaction, their concentrations are 0.30 M, 0.40 M, and 0 M, respectively? Please Please Please show all the steps when you are calculating the Ice table calculations A= ?       B=?     C=?

The standard free energy for the reaction A ---> B is -4.00 kJ/mole. If the concentration...

The standard free energy for the reaction A ---> B is -4.00 kJ/mole. If the concentration of A known to be 4.00 mM at equilibrium at 25 oC. What would be equilibrium mM concentration of B. Provide answer to the nearest tenth mM.

The standard free energy of activation of a reaction A is 88.2 kJ mol–1 (21.1 kcal...

The standard free energy of activation of a reaction A is 88.2 kJ mol–1 (21.1 kcal mol–1) at 298 K. Reaction B is ten million times faster than reaction A at the same temperature. The products of each reaction are 10.0 kJ mol–1 (2.39 kcal mol–1) more stable than the reactants. (a) What is the standard free energy of activation of reaction B? (b) What is the standard free energy of activation of the reverse of reaction A? (c) What...

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...

Consider the fructose-1,6-bisphosphatase reaction. Calculate the free energy change if the ratio of the concentrations of...

Consider the fructose-1,6-bisphosphatase reaction. Calculate the free energy change if the ratio of the concentrations of the products to the concentrations of the reactants is 21.3, and the temperature is 37.0 °C? ΔG°\' for the reaction is –16.7 kJ/mol. The constant R = 8.3145 J/(mol·K)

The standard free energy change for ATP hydrolysis is -30.5 kJ/mol. Therefore, the free energy change...

The standard free energy change for ATP hydrolysis is -30.5 kJ/mol. Therefore, the free energy change for this reaction in a cell in which the concentration of ATP, ADP, and Pi are 3.1 mM, 2.2 mM and 6.8 mM, respectively, and assuming a physiologically relevant temperature (37 °C), is: Answer -44.25 kJ/mol explain

Consider the reaction X ---> Y in a cell at 37 degrees Celcius. At equilibrium, the...

Consider the reaction X ---> Y in a cell at 37 degrees Celcius. At equilibrium, the concentrations of X and Y are 50 micrometers and 5 micrometers, respectively. Use this information and your knowledge of the relationships between deltaG, and deltaGo , and the equilibrium constant (K) to answer questions a-c. a) What is the value of K for this reaction? b) What is the value of the standard free energy? is the reaction X-->Y and energetically favorable or unfavorable...

1.      Calculate the standard free energy change at 500 K for the following reaction. Cu(s) +...

1.      Calculate the standard free energy change at 500 K for the following reaction. Cu(s) + H2O(g) à CuO(s) + H2(g) ΔH˚f (kJ/mol) S˚ (J/mol·K) Cu(s)    0    33.3    H2O(g)    -241.8    188.7    CuO(s)    -155.2    43.5    H2(g)     0    130.6 2.      When solid ammonium nitrate dissolves in water, the resulting solution becomes cold. Which is true and why? a.      ΔH˚ is positive and ΔS˚ is positive b.      ΔH˚ is positive and ΔS˚...

Given: Cr3+(aq)+3e– ⇌Cr(s);E°=−0.74 V Cl2(g)+2e– ⇌2Cl−(aq);E°=1.36   What is the standard Gibbs free-energy change for the following...

Given: Cr3+(aq)+3e– ⇌Cr(s);E°=−0.74 V Cl2(g)+2e– ⇌2Cl−(aq);E°=1.36   What is the standard Gibbs free-energy change for the following reaction? (F = 96485 C per mole of electrons). 2Cr(s) +3Cl2(g) ⇔2Cr3+(aq) +6Cl−(aq) Select one: a. −1215 kJ b. −231.3 kJ c. −983 kJ d. −322.4 kJ e. 2309 kJ