Finite Connected Graph is Tree iff Size is One Less than Order/Necessary Condition/Induction Step/Proof 2

Theorem
Let the following hold:
 * For all $j \le k$, a tree of order $j$ is of size $j - 1$.

Then this holds:
 * A tree of order $k + 1$ is of size $k$.

Proof
Let $T_{k + 1}$ be an arbitrary tree with $k + 1$ nodes.

Remove any edge $e$ of $T_{k + 1}$.

By definition of tree $T_{k + 1}$ has no circuits.

Therefore from Condition for Edge to be Bridge it follows that $e$ must be a bridge.

So removing $e$ disconnects $T_{k + 1}$ into two trees $T_1$ and $T_2$, with $k_1$ and $k_2$ nodes, where $k_1 + k_2 = k + 1$.

Then,, $T_1$ and $T_2$ have $k_1 - 1$ and $k_2 - 1$ edges.

Putting the edge $e$ back again, it can be seen that $T_{k + 1}$ has $\paren {k_1 - 1} + \paren {k_2 - 1} + 1 = k$ edges.

Therefore a tree of order $k+1$ is of size $k$.