7) Calculate the key of a reaction at 315 °K and a AG° = -35.7 kJ/mol....
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Calculate the Keq of a reaction at 315 °K and a 4Gº = -35.7 kJ/mol. Is the reaction favorable? A. Keq = 3.76*105; exergonic B. Keq = 1.67*10-5; endergonic Oc. Keq = 8.38*105; exergonic D. Keq = 8.38*10-5; endergonic
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7) Calculate the key of a reaction at 315 Kand a Gº = -35.7 kJ/mol. Is the reaction favorable? a. Keq = 1.67*105; exergonic b. Keg = 1.67*10-5; endergonic c. Keq = 3.76*105; exergonic d. Keg = 3.76*10-5; endergonic
the next question prevents changes to this answer. Question 24 Calculate the AG* for a reaction at 455K at a Keq = 1,44*104. Is the reaction endergonic or exergonic. OA.-36.2 kJ/mol; endergonic 13.6 kj/mol endergonic OB Ос. 13.6 kJ/mot exergonic OD -36.2 k/mot exergonic Moving to the next question prevents changes to this answer. IMG_3716.jpg IMG_3711:09 o 99 hp 6 7 8 F E Y Т. U
For a particular reaction at 212.3 °C, AG = -889.99 kJ/mol, and AS = 385.90 J/(mol · K). Calculate AG for this reaction at -2.8 °C. AG= 193.97 kJ/mol
For a particular reaction at 203.3 °C, AG = 424.99 kJ/mol, and AS - 551.38 J/mol K). Calculate AG for this reaction at -66.6 °C. AG = kJ/mol What is the value of K for this aqueous reaction at 298 K? A + B =C+D AG° = 11.80 kJ/mol
For a particular reaction, AH = -14.20 kJ/mol and AS = -198.5 J/(mol.K). Calculate AG for this reaction at 298 K. AG = 73.35 kJ/mol
AG,O (25°C kJ/mol) ДнР (25°C kJ/mol) So Substance (25°C J/mol-K) NaNO, (s) -467.9 -367.0 116.5 NaNO2 (s) -358.7 -284.6 103.8 Cl2O (g) CI2OS (g) PbO (s) 80.3 97.9 266.2 -212.5 -198.3 309.8 -217.32 -187.89 68.7 CI2CRO2 (I) CI2CRO2 (g) -579.5 -510.8 221.8 -538.1 -501.6 329.8 Compute the AH°, AG°, and AS° for the reaction given below at two temperatures: 298 K and 315 K. PbCl2 (s)3NaNO2(s) PbO(s)NaNO3(s) +2NO(g) +2NaCl(s) At 298 K kJ ΔΗ' is AG° is kJ J/K AS...
If AG, for a reaction is +13.4 kJ/mol, what is K for the reaction at 2°C? 2.23 4.47 x 10- 3.51 x 102 a. b. 2.85 x 10-3 е. 1.00 с.
Consider a general reaction enzyme A(aq) = B(aq) The AG*' of the reaction is –5.650 kJ. mol-?. Calculate the equilibrium constant for the reaction at 25 °C. Keq = What is AG for the reaction at body temperature (37.0 °C) if the concentration of A is 1.9 M and the concentration of B is 0.60 M? AG= kJ. mol-1
For a particular reaction at 239.1 °C, AG = 363.40 kJ/mol, and AS = 739.34 J/mol. K). Calculate AG for this reaction at -19.0 °C. AGE 554.22 kJ/mol