Free Energy: Determining Greater Reactants

In summary, when studying voltaic cells, it is important to note that for some ions (such as Cu2+), both oxidation and reduction reactions are possible. In order to determine which reaction will take place, one cannot rely solely on comparing the signage in voltage of both reactant combinations. This is because even if both cases have positive signage, it is possible for the reactions to occur at different rates. Similarly, when considering free energy, the same principle applies. It is important to construct the cell carefully and consider the reduction table and arbitrary reduction of zero. Additionally, it is not possible to have a redox reaction with both a reductant and an oxidant. If both reactions are predicted to occur spontaneously, they will occur proportion
  • #1
friendbobbiny
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This question came to mind when studying voltaic cells. In voltaic cells, for some ions (Cu2+ for example), both oxidation and reduction are possible. Given both possiblities, how do we determine which reaction will take place? I first thought that comparing the signage in voltage of both reactant combinations would give the answer. But it then occurred to me that, even in both cases, signage could be positive.

In other words.

V1>0
V2>0
but V1>V2

how does one determine which reaction takes place then? the same can be said about free energy

G1< 0
G2< 0
but G1<G2.
 
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  • #2
This depends on how you construct your cell, remember that a reduction table is created by using a standard (SHE) and giving it an arbitrary reduction of zero. You cannot have a redox reaction with a reductant AND an oxidant. If you have metal iron and Cu2+, why would you think that the copper will form oxidation states of >2+?

Edit to add: If you have a situation where the free energy is indeed such that both reactions are predicted to occur spontaneously, then they both will occur proportionally to their respective kinetics parameters.
 

1. What is free energy and why is it important in determining greater reactants?

Free energy refers to the amount of energy available to do work in a system. In chemical reactions, free energy is important in determining which reactants will drive the reaction forward and which will be the limiting reactants.

2. How is free energy calculated?

Free energy can be calculated using the formula ΔG = ΔH - TΔS, where ΔH is the change in enthalpy, T is the temperature in Kelvin, and ΔS is the change in entropy. This equation takes into account the energy released or absorbed during a reaction and the disorder or randomness of the system.

3. What is the role of activation energy in determining the greater reactants?

Activation energy is the minimum amount of energy required for a chemical reaction to occur. In determining greater reactants, the reactants with lower activation energy are more likely to react and drive the reaction forward, making them the greater reactants.

4. Can free energy be negative?

Yes, free energy can be negative. A negative ΔG value indicates that the reaction is exergonic, meaning it releases energy and is thermodynamically favorable. This can happen when the reactants have a higher free energy than the products, causing the reaction to proceed spontaneously.

5. How does changing the concentration of reactants affect free energy and the determination of greater reactants?

Changing the concentration of reactants can affect the value of ΔG and thus, the determination of greater reactants. Increasing the concentration of a reactant can decrease the value of ΔG, making it more likely to drive the reaction forward and become the greater reactant.

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