hi MERTICH

Welcome to the forum.

If you had three equations like this, you could make x the subject of one and substitute this into both the other equations.

Then you'd have two equations and two unknowns.

Making y the subject of one and substituting into the other, would enable you to solve for z.

Then you could substitute back to get y and x.

So, as a general rule, three equations with three unknowns leads to a single unique answer for x, y and z. This only applies when the equations are linear .... so not when x^2 etc. Also some sets of three will lead to no solutions or even an infinite number of solutions.

Because you have only two equations with three unknowns, you won't ever be able to get a single answer.

As shown, y and z can be eliminated in a single step by adding the equations together. So x is fixed.

But there's not enough information to fix y and z. As bobbym says, you can choose a value for y and this leads to a value for z. But there are an infinite number of choices.

Is that the whole problem or was this just a part of a problem? Maybe you are now meant to say what this means in the larger problem.

For example, these could be the equations for two intersecting planes. The line x=1 is then the equation for the line of intersection.

Bob