The value of delta G for the conversion 3-phosphoglycerate to 2-phosphoglycerate(2PG) is +4.40 kJ/mol. If the...

The value of ?G°\' for the conversion of glucose-6-phosphate to fructose-6-phosphate (F6P) is 1.67 kJ/mol. If...

The value of ?G°\' for the conversion of glucose-6-phosphate to fructose-6-phosphate (F6P) is 1.67 kJ/mol. If the concentration of glucose-6-phosphate at equilibrium is 2.45 mM, what is the concentration of fructose-6-phosphate? Assume a temperature of 25.0 °C. The constant R = 8.3145 J/(mol·K)

A) For the reaction CH4(g) + H2O(g) ---> 3H2(g) + CO(g) delta H° = 206.1 kJ...

A) For the reaction CH4(g) + H2O(g) ---> 3H2(g) + CO(g) delta H° = 206.1 kJ and delta S° = 214.7 J/K The equilibrium constant for this reaction at 325.0 K is _____ Assume that delta H° and delta S° are independent of temperature. B) For the reaction N2(g) + 2O2(g)-->2NO2(g) deltaH° = 66.4 kJ and deltaS° = -121.6 J/K The equilibrium constant for this reaction at 327.0 K is _____ Assume that delta H° and delta S° are independent...

2XY2(g) + Y2(g) -> 2XY3(g) (delta)Hf(kj/mol) S(J/K*mol) XY2(g) -296.3 262.3 Y2(g) 0 205.4 XY3(g) -403.4 275.2...

2XY2(g) + Y2(g) -> 2XY3(g) (delta)Hf(kj/mol) S(J/K*mol) XY2(g) -296.3 262.3 Y2(g) 0 205.4 XY3(g) -403.4 275.2 Determine the value of the equilibrium constant at 25*C.

A <-> B <-> C delta G0 for A<-> B= 11.4 kJ/mol-1 delta G0 for B<->C=...

A <-> B <-> C delta G0 for A<-> B= 11.4 kJ/mol-1 delta G0 for B<->C= -22.8kJ/mol-1 A. What is the dela G0 for the conversion of A to C? B. Write an equation for the free energy change (delta G) of the first reaction, A to B, taking into aaccount concentraions of reactants and products. C. At equilibrium, what are the concentration rations of [B]/[A], [C]/[B], and [C]/[A]?

A<->B<->C delta G0 for A<->B =11.4 kJ mol-1 delta G0 for B<->C = -22.8 kJ mol-1...

A<->B<->C delta G0 for A<->B =11.4 kJ mol-1 delta G0 for B<->C = -22.8 kJ mol-1 A. What is the deta G0 for the conversion of A to C? B. Write an equation for the free energy change (delta G) of the first reaction, A to B, taking into account concentrations of reactants and products. C. At equilibrium, what are the concetration ratios of [B]/[A], [C]/[B], and [C]/[A]?

Consider the following reaction. CH3OH(g) CO(g) + 2 H2(g) DELTA-H = +90.7 kJ (a) Is the...

Consider the following reaction. CH3OH(g) CO(g) + 2 H2(g) DELTA-H = +90.7 kJ (a) Is the reaction exothermic or endothermic? (b) Calculate the amount of heat transferred when 45.0 g of CH3OH(g) are decomposed by this reaction at constant pressure. DELTA-H =___ kJ (c) If the enthalpy change is 20.0 kJ, how many grams of hydrogen gas are produced? _____g (d) How many kilojoules of heat are released when 11.5 g of CO(g) reacts completely with H2(g) to form CH3OH(g)...

HgO(s) Hg(g) O2(g) Enthaply Delta H kj/mol -90.8 61.3 Entropy Delta S   j/mol. K 70.3 174.9...

HgO(s) Hg(g) O2(g) Enthaply Delta H kj/mol -90.8 61.3 Entropy Delta S   j/mol. K 70.3 174.9 205.0 Above is a table of thermodynamics date for the chemical species in the reaction: 2HgO(s) ----> 2Hg(g)+ O2(g) at 25 C A) Calculate the molar entropy of reaction at 25 C B) Calculate the standard Gibbs free enregy of the reaction at 25 C given that the enthaply of reaction at 25 C is 304.2 Kj/mol C)Calculate the equilibrium constant for the reaction...

1) For iodine gas [ I2(g) ], delta H= 62.4 kJ/mol and S = 260.7 J/mol-K....

1) For iodine gas [ I2(g) ], delta H= 62.4 kJ/mol and S = 260.7 J/mol-K. Calculate the equilibrium partial pressures of I2(g), H2(g), and HI(g) for the system 2HI(g) ⇌ H2(g) + I2(g) at 500oC if the initial partial pressures are all 0.200 atm.

Calculate delta G at 82 C for reactions in which a. delta H = 293 kj...

Calculate delta G at 82 C for reactions in which a. delta H = 293 kj delta S = -695 J/K b. delta H = -1137 kJ; delta S = 0.496 kJ/K c. delta H = -86.6 kJ; delta S = -382 J/K

calculate the standard free energy change delta G for reaction N2 (g) +3H2(g)—>2NH3 N2 delta H=0.00kj...

calculate the standard free energy change delta G for reaction N2 (g) +3H2(g)—>2NH3 N2 delta H=0.00kj mol^-1s=+191.5J mol^-1K^-1 H2 delta H=0.00kj mol^-1,s = +130.6j mol^-1 k-1 NH3 delta H=-46.0kj mol^-1,s =192.5 J mol^-1 k-1 A. +112.3 kJ B.-87.6kJ C.-7.4kJ D.-32.9 kJ E.-151.1kJ