Real numbers for a Field, so do complex numbers and rationals. What is deeply interesting is that we can construct several other fields based on an existing field. These are called Field extensions.
Standard example of such Field extension goes like this. Let $Q$ be a rational field. Consider polynomial $X^2 -2 \in Q$. Clearly roots of the this polynomial $X=\sqrt{2}$ and $X=-\sqrt{2}$ don't belong to $Q$ as there are irrationals.
One nice things we can do is to extend $Q$ by adding these roots to form a new field. Let's call it $Q(\sqrt{2})$. Now $Q(\sqrt{2})$ consists of roots of polynomials in $Q[X]$ whose roots involve $\sqrt{2}$.
For example, a polynomial $
Elements: We can add any two elements and resulting element is still in
This setup allows for the exploration of linear algebra concepts within field extensions, including the basis, dimension, and linear transformations, offering a rich framework for understanding more complex algebraic structures.
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