What is Le Chatelier's principle used to explain?

In reversible reactions, the reaction does not go to completion, but rather reaches a point of stability known as the point of chemical equilibrium. At this point, the concentration of products and reactants do not change, and both products and reactants are present.

Le Chatelier's principle states that if this reaction, at equilibrium, is disturbed, it will readjust itself as to oppose the change .

For example: Change in concentration

Other changes include temperature and pressure.

There should be several examples of such changes to equilibria on these boards. The difficulty is in finding the one you need. I can give you one, well-studied example:

Nitric oxide is a red-brown gas; whereas dinitrogen tetroxide is colourless. The colour change is important, because it means we have a macroscopic observable to study how the equilibrium evolves. We could take a sealed tube of the given reaction at equilibrium, and subject it to stress: i.e. heating or cooling by placing the bulb in a hot water bath or an ice bath.

Upon heating, the equilibrium moves to the left, i.e. towards the reactants, as evidenced by the deepening of colour. On cooling it moves to the right, i.e. the colour dissipates.

And if we write the exothermic reaction this way:

we can rationalize the behaviour of the equilibrium on the basis of Le Chatelier's principle. That is addition of heat shifts the equilibrium to the reactant side; whereas cooling the reaction shifts the equilibrium to the right hand side. Le Chatelier's principle can also be illustrated with regards to changes in concentration.

With regard to the dimerization reaction, can you give a simple reason why the FORWARD reaction should be exothermic?

Le Chatelier's principle is used to explain how a system at equilibrium responds to changes in temperature, pressure, or concentration of reactants and products, by shifting the equilibrium position to counteract the imposed change.