The natural ordering on the set of natural numbers
(that is,
) has the well ordering property that every nonempty subset ofhas a least (smallest) element. The principle of induction is the following theorem, which is equivalent to the well ordering property of the natural numbers.
Theorem (Principle of induction). Let
be a statement about
Suppose that
1. (basis statement)
is true,
2. (induction step) ifis true, then
is true.
Thenis true for all
Proof. Suppose that
is the set of natural numbers
for which
is not true. Suppose that is nonempty. Thenhas a least element by the well ordering principle. Let us call
the least element of
We know that
by assumption. Therefore
and
is a natural number as well. Sincewas the least element of S, we know that
is true. But by the induction step we can see that
is true, contradicting the statement that
Thereforeis empty andis true for all
Sometimes it is convenient to start at a different number than 1.
Example: Prove for
We letbe the statement thatis true. Putting
we can see that P(1) is
true. Suppose that
is true. That is, suppose thatholds. Multiply both sides by
to obtain
As
when
we have
That is, 
and hence
is true. By the principle of induction, we see thatis true for all
and
hence
is true for all
The principle of strong induction is similar:
Letbe a statement about a natural number
Suppose that
1. (basis statement)
is true,
2. (induction step) if
is true for all
thenis true.
Thenis true for all