Chemical Equilibrium: Understanding & Equation

[Interception]

Can someone help me understand the concept of chemcial equilbrium. I think I understand in a certain chemical reaction, know matter the amount of reactants or products, the equilibrium constant will remain approximatly the same. I don't fully understand how the equation to solve for the equilibrium is formed. Also, is there a physical equilibrium, as in the phase of matter of the reactants and products?

 

[Borek]

For a given temperature equilibrium constant is not "approximately the same" - it is constant.

Hard to help with other things not knowing where your problem lies. General approach to solving equilibrium problems is to list all reactions, write all reaction quotients and write all mass balances and a charge balance - that yields a set of equations that have to be solved. What is left is just a math that usually gets nasty. You will spend most of your time learning tricks that help simplify finding a solution.

 

[binomial]

Chemical equilibrium is the state of a reaction in which the rate of the forward reaction is equal to the rate of the reverse reaction. For instance, A + B > C. The rate at which A and B are combining to form C is equal to the rate at which C is decomposing into A and B. As Borek said above, the equilibrium constant is exactly that - a constant for specific temperatures. It changes at different temperatures because the rates of reactions change at certain temperatures. The equilibrium expression can be derived by rate laws, for example, knowing that the forward and reverse rates are equal it can be written that kf[A] = kr[C], which implies that kf/kr = [C]/([A]) and K = [C]/([A]). This is called the law of mass action, and if you want to understand its derivation even further it involves some highly complex math. Just be satisfied (for now) that it was derived using countless empirical data a long time ago before Rate Laws even existed.

The phases of individual reactants and products are important to equilibrium because there are different equilibrium constants for different phases. Solids are NOT incorporated into your equilibrium expression because the concentration of a solid is simply 1. For instance, if you were to say a solid has a concentration in mol/L, well, we know that moles are proportional to volume. Thus, if you increase the amount of moles of that solid, it's volume will increase proportionally, and thus its concentration remains 1. For gases, the equilibrium expression will make use of pressures. For aqueous reactants/products, the equilibrium expression will make use of concentrations in molarity or often times molality. It just depends.

Hopefully this answer helped you. :)

 

[Raishah]

Put simply, Chemical equillibrium is when a reaction has stopped reacting and is at a point of being stable, think of it as a balance of reactants and products. once the temperature, concentration etc changes, the point of equillibrium changes.

 

[LudusRex]

Chemical equilibrium is a fundamental concept in chemistry that refers to the state in which the rate of a forward reaction is equal to the rate of the reverse reaction. This means that the concentrations of reactants and products remain constant over time, even though the reaction is still occurring.

The equilibrium constant (K) is a value that represents the ratio of product concentrations to reactant concentrations at equilibrium. It is a measure of the extent to which a reaction has reached equilibrium and is determined by the temperature and pressure of the system. The equation for the equilibrium constant is derived from the law of mass action, which states that the rate of a chemical reaction is proportional to the product of the concentrations of the reactants.

To solve for the equilibrium constant, you need to know the initial concentrations of reactants and products, as well as the equilibrium concentrations. These can be determined experimentally or by using the equilibrium expression, which is a mathematical representation of the equilibrium constant.

In terms of physical equilibrium, this refers to the balance between different phases of matter (e.g. solid, liquid, gas) in a system. In a chemical reaction, there can be physical as well as chemical equilibrium. For example, the melting of ice is both a physical and chemical equilibrium as the solid and liquid phases are in equilibrium, and the reaction between water and ice is also at equilibrium.

In summary, chemical equilibrium is a crucial concept in understanding the behavior of chemical reactions. The equilibrium constant equation is formed from the law of mass action and can be used to determine the extent of a reaction at equilibrium. Physical equilibrium can also occur in a chemical reaction, depending on the phases of matter involved.