Let $\varphi$ be Euler's totient function, and let $\sigma(n)=\sum_{d\mid n}d$ for $n=1,2,3,\ldots$. Both $\varphi$ and $\sigma$ are multiplicative functions. It is easy to see that the numbers 
$$\varphi(n^2)=n\varphi(n)\ \ (n=1,2,3,\ldots)$$ are pairwise distinct.

**Question 1.** 
Are the numbers $\varphi(n^2)\sigma(n^2)\ (n=1,2,3,\ldots)$ pairwise distinct?

**Question 2.**
Are the rationals $\sigma(n^2)/\varphi(n^2)\ (n=1,2,3,\ldots)$ pairwise distinct?

I had the questions in 2015, and conjecture that the answers to both questions are affirmative. I have verified that 
$$\varphi(n^2)\sigma(n^2)\ \ (n=1,\ldots,10^7)$$ are indeed pairwise distinct, and also
$$\frac{\sigma(n^2)}{\varphi(n^2)}\ \ (n=1,\ldots,10^7)$$
are pairwise distinct.
 

Any ideas to solve the problem? Your comments are welcome!