In mathematics, the solution set of a system of equations or inequality is the set of all its solutions, that is the values that satisfy all equations and inequalities.[1] Also, the solution set or the truth set of a statement or a predicate is the set of all values that satisfy it.
If there is no solution, the solution set is the empty set.[2]
x=0
\{0\}
x
y
P(n):n is even
\{2,4,6,8,\ldots\}
In algebraic geometry, solution sets are called algebraic sets if there are no inequalities. Over the reals, and with inequalities, there are called semialgebraic sets.
More generally, the solution set to an arbitrary collection E of relations (Ei) (i varying in some index set I) for a collection of unknowns
{(xj)}j\in
{(Xj)}j\in
x(k)
{\left(xj\right)}j\in
x(k)
(Instead of relations depending on unknowns, one should speak more correctly of predicates, the collection E is their logical conjunction, and the solution set is the inverse image of the boolean value true by the associated boolean-valued function.)
The above meaning is a special case of this one, if the set of polynomials fi if interpreted as the set of equations fi(x)=0.
(x,y)\in\R2
x\in\R
E=\{\sqrtx\le4\}
x\in\R
\sqrtx
E=\{ei=1\}
x\in\Complex