Reaction that does not reach equilibrium

In summary: Remember that the equilibrium is at the temperature, pressure, and composition where the change in Gibbs free energy is zero.Equilibrium is at the temperature, pressure, and composition where the change in Gibbs free energy is zero.
  • #1
kasse
384
1

Homework Statement



Will you expect the reaction C(s) + CO2(g) = 2CO(g) to reach equilibrium at 298K?

The Attempt at a Solution



Yes, because all reactions reach equilibrium given enough time.

Am I wrong? My book says so. The answer is simply "no". But why?
 
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  • #2
All reactions reach 'an' equlibrium at a certain temperature.

Imagine mixing hydrogen and oxygen, at room temperature the equilibrium is for it to form water - on the surface of a star it won't.
 
  • #3
So the answer is no because CO is not stable at 298K? And that can be seen because the gibbs free energy for the reaction is positive from left to right?
 
  • #4
kasse said:
Yes, because all reactions reach equilibrium given enough time.

I'm with you on this one. It's too bad the answer couldn't have been more specific (e.g., a reasonable amount of time). It makes it hard to understand what's expected of you.

Even if the production of CO isn't favored, the reaction should still reach equilibrium--just with very little CO in the system.
 
  • #5
kasse said:
Am I wrong? My book says so. The answer is simply "no". But why?

Change the book.

It may take eons, but finally reaction will reach the equilibrium.

Could be they meant something else than they asked - but if so, change the book.



 
  • #6
This question is concerns the equilibrium as pertaining to free energy and at room temperature the free energy for the reaction may not be zero meaning that either the forward or reverse mechanism is favored ; this does not mean that things are not going to stabilize at some point however this latter point is different from the actual concept of equilibrium.


Remember that the equilibrium is at the temperature where the free energy is zero. Use the a derivation of the Gibbs equation along with the standard Gibbs potential value to solve for the temperature.
 
  • #7
GCT said:
Remember that the equilibrium is at the temperature where the free energy is zero.

Equilibrium is at the temperature, pressure, and composition where the change in Gibbs free energy is zero.
 
  • #8
I was referring to this question in particular which is soley with respect to the temperature.

Also remember that we're not necessarily referring to a closed system here - in such a system the rate of the reverse increase with successively to eventually equal the forward assuming that the rate constants are comparable. Also we're dealing with gases - in an open system things may simply go to completion unless we're at the exact temperature where the Gibbs is zero where things are at an equilibrium state.
 

1. What is a reaction that does not reach equilibrium?

A reaction that does not reach equilibrium is a chemical reaction in which the reactants do not completely convert into products. This can happen when the reaction is reversible and the products can also react to form the reactants again, preventing the reaction from reaching equilibrium.

2. Why does a reaction not reach equilibrium?

A reaction may not reach equilibrium due to various factors such as changes in temperature, pressure, or concentration of reactants or products. Additionally, if the reaction is not kinetically favorable, it may not reach equilibrium.

3. How can a reaction that does not reach equilibrium be shifted towards equilibrium?

A reaction that does not reach equilibrium can be shifted towards equilibrium by changing the conditions of the reaction such as increasing the temperature, pressure, or concentration of reactants or products. This will favor the forward or reverse reaction, depending on the specific conditions.

4. What are the consequences of a reaction not reaching equilibrium?

The consequences of a reaction not reaching equilibrium can vary depending on the specific reaction. In some cases, it may result in a lower yield of products, while in others it may lead to the formation of unwanted byproducts. This can also affect the overall efficiency of the reaction.

5. How is a reaction that does not reach equilibrium different from a reaction at equilibrium?

A reaction that does not reach equilibrium is different from a reaction at equilibrium because in the former, the concentration of reactants and products is not constant and the reaction is still proceeding. In contrast, a reaction at equilibrium has a constant concentration of reactants and products, and the forward and reverse reactions occur at equal rates.

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