Between two Rational Numbers exists Irrational Number/Lemma 1

Lemma for Between two Rational Numbers exists Irrational Number
Let $\alpha \in \Q$ and $\beta \in \R \setminus \Q$.

Then:
 * $\alpha \cdot \beta \in \R \setminus \Q$

Proof
Aiming for a contradiction, suppose that $\alpha \cdot \beta \in \Q$.

By the definition of rational numbers:
 * $\exists n, m, p, q \in \Z: \alpha = \dfrac n m$
 * $\alpha \cdot \beta = \dfrac p q$

Thus:
 * $\beta = \dfrac p q \cdot \dfrac 1 \alpha = \dfrac p q \cdot \dfrac m n$

By Rational Multiplication is Closed, we have $\beta \in \Q$, which contradicts the statement that $\beta \in \R \setminus \Q$.

Therefore $\alpha \cdot \beta \in \R \setminus \Q$.