Explain IN WORDS the biochemical relationship between Gibbs free energy, equilibrium constant and reduction potential?
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Explain IN WORDS the biochemical relationship between Gibbs free energy, equilibrium constant and reduction potential?
16. What is the relationship between free energy change of a reaction and the equilibrium constant? A B C D 17. The rate law for the reaction is first order in [A] and second order in [B]. If [A] is halved and [B] is doubled, by what factor does the rate increase, decrease, or remain the same? Explain 18. Consider the potential energy diagram shown below to answer the following question? Where is the transition state of the slower step....
Describe Gibbs free energy and explain how the change in free energy delta G can be used to predict if a reaction will be spontaneous or non-spontaneous. Explain how ATP acts as an energy carrier. Describe oxidative phosphorylation. Where is the electron transport chain (ETC) located and name each of the five complexes of ETC. Explain standard reduction potential. Explain how proton concentration gradient is used to drive ATP synthesis. Explain the role of uncoupling proteins. Identify the sugars below...
4. An enzyme reaction in a biochemical cycle has an equilibrium constant that is 10 times that of the second reaction at 300K. If the standard reaction Gibbs free energy (A,G) of the former is -300 kJ/mol, what is the standard reaction Gibbs free energy of the second reaction?
Please explain Gibbs Free Energy. Below are key questions. 1. Define Gibbs free energy and express it mathematically in terms of the temperature, enthalpy change, and entropy change of the system. 2 .Understand the meaning of the mathematical sign of the change in Gibbs free energy with respect to spontaneity. 3 Compute the change in Gibbs free energy, and predict spontaneity from T, DH, and DS.
ChemActivity T10 Gibbs Energy as a Function of Temperature and Pressure 121 Model 2: Chemical Potential. For a pure phase, the chemical potential is given by where G is the molar Gibbs energy and n is the number of moles. Critical Thinking Questions 5. For a constant temperature process, what is the relationship between do, volume, and pressure? 6. A particularly useful relationship is that between G and volume and pressure for various systems at constant temperature. a) For condensed...
Gibbs Free Energy/ Thermochemistry 1. Calculate the equilibrium constant at the temperature given O2(g) +2F2(g) --> 2F2O (g) (T=100 C) Delta G -79 KJ
Calculate the change in Gibbs free energy at standard conditions (TSS) and the equilibrium constant for each of the following reactions. (a) CH4(g) + H2O(g) equilibrium reaction arrow CO(g) + 3 H2(g); ?H° = +205.9 kJ, ?S° = +214.7 J/K ?G° 141.9 Correct: Your answer is correct. kJ K (b) CaCO3(s) equilibrium reaction arrow CaO(s) + CO2(g); ?H° = +179.2 kJ, ?S° = +160.2 J/K ?G° 131.5 Correct: Your answer is correct. kJ K
calculate equilibrium constant and free energy change
please
Calculate the cell potential, the equilibrium constant, and the free-energy change for Ca(s) + M12+ (aq)(1M) = Cap+ (aq)(1M) + Mn(3) given the following E' values: Ca2+ (aq) + 2e + Ca(8) E° = -1.50 V Mn2+ (aq) + 2e - →Mn(s) E° = -0.58 V Part A Calculate the cell potential 0.920 V Previou Correct Part B Calculate the equilibrium constant I ALCO ? Submit Previous Answers Request Answer X Incorrect;...
What is the relationship between electric potential and electric potential energy? In other words, how can we describe this relationship, and what formulas describe it. (Clear and precise please)
13. How to calculation standard free energy change of a given biochemical reaction according to its equilibrium constant, Ked? What does it mean for a biochemical reaction when Ked'>, -, or <1? 20. Use an example to explain addition-elimination reactions.