PLEASE EXPLAIN WHY EACH ANSWER IS TRUE OR FALSE
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PLEASE EXPLAIN WHY EACH ANSWER IS TRUE OR FALSE 6. The standard free energy AG° of...
I the AGⓇ of the reaction ABS. 56 kJ/mol which of the following statements are correct? The value of AG' is also positive The reaction will proceed spontaneously from A to B at standard conditions The equilibrium constant favors the formation of over the formation of B The equilibrium constant can be calculated if the initial concentrations of A and B are known The value of AG' is also negative. The reaction will proceed spontaneously from B to A at...
Calculate standard free energy change using AG values. Consider the reaction 2CO2(g) + 3H2(g) C2H2() + 4H2O(g) Use standard free energies of formation to calculate the standard free energy change for this reaction at 25°C. AG9rxn = kJ/mol
8. Indicate whether the following statements are true or false: a. If the free energy,AG,ofareaction is negative, then the entropy,AS,must be positive b. Anendergonicreactionisone forwhichAGispositive. c. Increasing the temperature usually increases the rate of a chemical reaction because it increases rate of movement of molecules d. A reaction that releases heat (ΔH) is termed exothermic, while a reaction that releases free energy, Δ G, is termed exergonic e. The transition state of a reaction is always at a higher (unfavorable)...
Tululu Piallite PIUDICI 19.3.2 COUNTS TOWARDS GRADE LIUSCITUDIN Calculate standard free energy change using AG values. Consider the reaction 2NH3(g) + 202(g)—>N2O(g) + 3H2O(1) Use standard free energies of formation to calculate the standard free energy change for this reaction at 25°C. AGºrxn = kJ/mol Check & Submit Answer Show Approach
Thermodynamics of the Dissolution of Borax Prelaboratory Assignment 1. The standard free energy change for the formation of two moles of H:0 (l) in a strong acid-strong base neutralization reaction at 25°C is -799 kJ. H30+ (aq) + OH(aq) → 2H20 (1AG° -79.9 kJ a. Calculate the equilibrium constant for the reaction b. Explain the chemical significance of the calculated equilibrium constant for the neutralization reaction. c. The standard enthalpy change, AH, for a strong acid-strong base reaction is -57.8...
Standard free energies of formation, AG, in kj/mol, are given below each reactant and product in the reaction shown below. The standard free energy of reaction, AG', for this reaction is kj. Enter your answer as the nearest Integer with no units. CH468) 2 028) -CO2(g) + 2 H200) - 50.8 0 - 394.4 -237.2
Please answer true or false and explain why for each of them. Thank you 1. Mark with T (True) or F (False) (2 points each) • Joule Thompson experiment corresponds to process with constant enthalpy. . The state functions (U.H,G,A) act as thermodynamic potentials when represented as functions of their natural variables. • The Gibbs free energy is equal to the maximum PV work done by the system on the envi- ronment. . The standard enthalpy of formation for any...
(9) A spontaneous process has the change of free energy (a) AG>0 (c) AG = 0 (b) AG <O (d) AH>0 and AS <O (10) A chemical reaction has AH = 10 kJ. AS = 50 J/K at temperature T = 300 K. the reaction AG = J. (a) 5000 (b) -5000 (c) 10000 (d) 50 (11) For reaction: Ag (s) + 2 Cl2 (g) Ag° (aq) +CI (aq), the standard free energy of formation: AGf° (Ag*) = 77.1 kJ/mol,...
4. (a) Calculate the Gibbs Free Energy of formation for urea at 25°C. Given: The standard enthalpy of formation is -333.17 kJ mol and the standard entropy of formation is 136.093 J K mol". (b) is the formation of urea a spontaneous process under these conditions? Explain. (7 pts) J mol
Calculate the standard free energy change for the combustion of one mole of methane using the values for standard free energies of formation of the products and reactants. The sign of the standard free energy change allows chemists to predict if the reaction is spontaneous or not under standard conditions and whether it is product-favored or reactant-favored at equilibrium. kJ/ mol-rxn