# Which graph shows Chemical Equilibrium?

So my teacher started the explanation of Chemical Equilibrium saying.. The concentration does not change with time. And, gave us certain graphs asking which ones show chemical equilibrium. I cannot understand what's written in my copy since I took the lesson two years ago. I need to be explained what I wrote in my copy.

I know that the concentration does not change with time. If concentration is same or not, does not matter. That only the rate of forward reaction and the rate of backward reaction needs to be same.

These are the graphs: (I am sorry I could not draw better.) : Now, I know 1,4,5 and 6 show chemical equilibrium.Reasons:

1. The concentration of the reactant is lost but same amount is achieved by the product.So here, the rate of forward reaction and rate of backward reaction is same.

2. For 5 and 6- The concentration of reactant and product may not be the same but it does not change with time.

I need help regarding :

1.Explanation as to how the other graphs do not show chemical equilibrium(if possible in terms of how the answer for the other graphs are explained).

2.Explanation for graph 5 and 6. I cannot understand the reason I had written.

3.An overall explanation and answer of the question.

Thank you very much for your help and understanding!!

• The graphs 4, 5, 6 and 7 have the label "Rate" on the y-axis, but in the graph you label the functions with a "c", which I assume is for concentration. – Martin - マーチン Aug 26 '15 at 1:01
• @Martin-マーチン I cannot change the picture now . But I reckon rate could mean rate of reaction and rate of concentration for the other graphs. – Freya Aug 26 '15 at 4:36

Firstly, you need to understand what it means when a system is in equilibrium. Equilibrium is the state of a system where the rate of the forward and reverse reaction are equal.

Note: this doesn't mean that the reaction completely stops, all this means that the concentration of the reactants and products remain constant.

A simple example of this can be shown in an experiment where a cube of sugar is placed in a saturated solution of sugar. If you leave it for a few days and come back, you will find that the shape of the sugar cube has changed. Instead of being a smooth, perfect cube, it is a irregular shape. However when if weigh the solid sugar, you find that it will weight exactly the same as the original sugar cube. Now this can be explained by the fact that the solid sugar is in equilibrium with the dissolved sugar in the saturated solution. Despite the forward and reverse reaction being equal (as no more sugar will dissolve) the reaction is still occurring. At a microscopic level, glucose molecules in the sugar cube are dissolving into the solution while dissolved sugar molecules precipitate out onto the sugar cube. However where they precipitate on the cube is random, hence they don't form a perfect cube. This is why the sugar cube changes shape but has the same original mass.

To do this question, it is important that you understand the concept that the reaction still occurs when a system reaches equilibrium. Now, lets look at each graph separately (remember, when we are looking at these graphs, we are only interested at what is happening at the end, what happens at the start is irrelevant):

1: Here the forward and reverse reaction are equal, so from our definition of equilibrium, this graphs shows a system in equilibrium. You should note that despite the system being at equilibrium, the reaction is still going

2,3: Here in both graphs the forward and reverse reaction are not equal. Therefore the system can't be in equilibrium. This is because in graph 2, the rate of the backward reaction is greater than the rate of the forward reaction. Hence the concentration of the products will be decreasing while the concentration of the reactants will increase. Vice verse for graph 3

4,5,6: Here, since the concentration of the reactants and the products are not changing over time, this means that the forward and reverse reaction is the same. Therefore, the system is in equilibrium

7: In this graph, the concentration of the products is increasing while the concentration of the reactants is decreasing. Hence the forward reaction must be greater than the backward reaction. Therefore, the system isn't in equilibrium.

So to recap the ideas that we heave just learnt, here is the 2 main things to check to work out if a system is in equilibrium or not:

1. Is the forward and backward reaction equal? if they are equal, this means that the system is in equilibrium. If they aren't equal, the system isn't in equilibrium
2. Is the concentration of the products and the reactants constant over time? if they are constant, the system is equilibrium. Note, the concentration of the products and reactants don't have to be equal. If concentration of the product and reactants are aren't constant, the system isn't in equilibrium.
• Apparantly the chemistry students at the Uni Bochum have a long-term experiment going on as to whether they can create a saturated aquaeous sucrose solution in a coke bottle. I heard that the solution be not saturated yet, although the experiment has been going on for some time. – Jan Sep 17 '15 at 22:29