Real Numbers of Type Rational a plus b root 2 form Field/Corollary

Theorem
Let $\Q \sqbrk {\sqrt 2}$ denote the set:
 * $\Q \sqbrk {\sqrt 2} := \left\{{a + b \sqrt 2: a, b \in \Q}\right\}$

that is, all numbers of the form $a + b \sqrt 2$ where $a$ and $b$ are rational numbers. The field $\struct {\Q \sqbrk {\sqrt 2}, +, \times}$ is a subfield of $\struct {\R, +, \times}$.

Proof
So $\Q \sqbrk {\sqrt 2} \subseteq \R$.

From Numbers of Type Rational a plus b root 2 form Field, $\struct {\Q \sqbrk {\sqrt 2}, +, \times}$ is a field.

As stated in the proof of the Numbers of Type Rational a plus b root 2 form Field, numbers of the form $a + b \sqrt 2$ are real.

Hence the result by definition of subfield.