If you have two expressions with variables, then unification algorithm tries to match the two expressions and gives you assignment for the variables to make the two expressions the same.
For example, if you represented expressions in F#:
type Expr =
| Var of string // Represents a variable
| Call of string * Expr list // Call named function with arguments
And had two expressions like this:
Call("foo", [ Var("x"), Call("bar", ) ])
Call("foo", [ Call("woo", [ Var("z") ], Call("bar", ) ])
Then the unification algorithm should give you an assignment:
"x" -> Call("woo", [ Var("z") ]
This means that if you replace all occurrences of the "x" variable in the two expressions, the results of the two replacements will be the same expression. If you had expressions calling different functions (e.g.
Call("foo", ...) and
Call("bar", ...)) then the algorithm will tell you that they are not unifiable.
There is also some explanation in WikiPedia and if you search the internet, you'll surely find some useful description (and perhaps even an implementation in some functional language similar to F#).