Changed my commentary on failure to be cursive
This commit is contained in:
Binary file not shown.
@@ -204,13 +204,14 @@ See the assignment PDF for the full assignment specification and theorem.
|
|||||||
\frac{x_1*x_1}{p_1***p_N*q_1***q_M} &= \frac{x_2*x_2}{v_1***v_n*w_1***w_m}
|
\frac{x_1*x_1}{p_1***p_N*q_1***q_M} &= \frac{x_2*x_2}{v_1***v_n*w_1***w_m}
|
||||||
\end{align}
|
\end{align}
|
||||||
|
|
||||||
I'm kinda stuck at this point. I see that this is definitely injective, since the way the exponents
|
\textit{I'm kinda stuck at this point.
|
||||||
|
I see that this is definitely injective, since the way the exponents
|
||||||
are defined, you will always know which prime factors belong to the numerator or to the denominator.
|
are defined, you will always know which prime factors belong to the numerator or to the denominator.
|
||||||
But I fail to prove this using the direct definition of $f$ like we could do for the natural numbers.
|
But I fail to prove this using the direct definition of $f$ like we could do for the natural numbers.
|
||||||
This is because the products of the denominators in the last equation are not unique.
|
This is because the products of the denominators in the last equation are not unique.
|
||||||
So maybe I simplified them too much and shouldn't try and write them in terms of $x_1$ and $x_2$ like
|
So maybe I simplified them too much and shouldn't try and write them in terms of $x_1$ and $x_2$ like
|
||||||
we did earlier, and try and focus more on just the exponents, but I feel it becomes really hard
|
we did earlier, and try and focus more on just the exponents, but I feel it becomes really hard
|
||||||
to show that $x_1 = x_2$ that way.
|
to show that $x_1 = x_2$ that way.}
|
||||||
|
|
||||||
\item[Surjectivity:] We want to show that $f$ is onto, i.e. $f(\{ q > 0 : q \in \Q \}) = \N$.
|
\item[Surjectivity:] We want to show that $f$ is onto, i.e. $f(\{ q > 0 : q \in \Q \}) = \N$.
|
||||||
|
|
||||||
|
|||||||
Reference in New Issue
Block a user