Prove that the sum $ \sqrt{1001^2 + 1}+\sqrt{1002^2 + 1} \ + ... + \sqrt{2000^2 + 1}$ is irrational

Since $\sqrt{n^2+1}$ is an algebraic integer for $n=1001,\dots,2000$ and algebraic integers are closed under addition, it follows that $$S=\sqrt{1001^2 + 1}+\sqrt{1002^2 + 1} \ + ... + \sqrt{2000^2 + 1}$$ is algebraic integer too. Now use the fact that any rational algebraic integer IS an integer. This contradicts the fact that $S$ is NOT an integer (as you have already shown). Hence $S$ is not rational.


A root of a monic polynomial with integer coefficients is called an algebraic integer. For example, $\sqrt{n}$ is an algebraic integer, because it is a root of $X^2 - n$. An important result is that the algebraic integers form a ring, i.e. the sum and product of algebraic integers is an algebraic integer. See here for my favourite proof of this fact.

Tags:

Polynomials

Irrational Numbers

Rationality Testing

Contest Math

Algebraic Numbers

Related

How can someone reject a math result if everything has to be proved? Find equation of line(s) bisecting perimeter and area of triangle formed by $xy$-axes and $6x+8y=48$ Simplify $y(t)=e^{-t}u(t) * \sum_{k=-\infty}^{\infty}\delta(t-3k)$ in the form of $y(t)=Ae^{-t}$ for $0\le t<3$ Every $2$-dimensional commutative $k$-algebra with only one prime ideal is isomorphic to $k[x]/(x^2)$ Is it possible to construct a continuous and bijective map from $\mathbb{R}^n$ to $[0,1]$? Proving $\log\left(\frac{4^n}{\sqrt{2n+1}{2n\choose n+m}}\right)\geq \frac{m^2}{n}$ What is the Fourier transform of $|x|$? Is this series $\sum_{n=0}^{\infty} 2^{(-1)^n - n} = 3 $ or $ \approx 3$ Prove that $\text{tr} (\phi \otimes \psi) = \text {tr} \phi \text {tr} \psi $. What is this Strange Behavior of the Optimal Guess in Hi Lo? Can $y=10^{-x}$ be converted into an equivalent $y=\mathrm{e}^{-kx}$? Bounded linear map which is not continuous

Recent Posts