Highest Voted Questions - Mathematics Stack Exchange

188

votes

21 answers

How do people perform mental arithmetic for complicated expressions? (In particular, $\frac{10^2+11^2+12^2+13^2+14^2}{365}$)

This is the famous picture "Mental Arithmetic. In the Public School of S. Rachinsky." by the Russian artist Nikolay Bogdanov-Belsky. The problem on the blackboard is: $$ \dfrac{10^{2} + 11^{2} + 12^{2} + 13^{2} + 14^{2}}{365} $$ The answer is easy…

algebra-precalculus recreational-mathematics mental-arithmetic

asked Aug 10 '15 at 22:58

Vlad

6,938

188

votes

12 answers

The median minimizes the sum of absolute deviations (the $ {\ell}_{1} $ norm)

Suppose we have a set $S$ of real numbers. Show that $$\sum_{s\in S}|s-x| $$ is minimal if $x$ is equal to the median. This is a sample exam question of one of the exams that I need to take and I don't know how to proceed.

optimization convex-optimization absolute-value median

asked Feb 25 '12 at 16:48

hattenn

2,287

187

votes

0 answers

Does every ring of integers sit inside a ring of integers that has a power basis?

Given a finite extension of the rationals, $K$, we know that $K=\mathbb{Q}[\alpha]$ by the primitive element theorem, so every $x \in K$ has the form $$x = a_0 + a_1 \alpha + \cdots + a_n \alpha^n,$$ with $a_i \in \mathbb{Q}$. However, the ring of…

abstract-algebra number-theory ring-theory algebraic-number-theory

asked Apr 22 '16 at 23:54

Eins Null

2,287

187

votes

6 answers

An Introduction to Tensors

As a physics student, I've come across mathematical objects called tensors in several different contexts. Perhaps confusingly, I've also been given both the mathematician's and physicist's definition, which I believe are slightly different. I…

abstract-algebra tensors

asked Nov 14 '10 at 19:22

Noldorin

6,788

186

votes

7 answers

Is there a quick proof as to why the vector space of $\mathbb{R}$ over $\mathbb{Q}$ is infinite-dimensional?

It would seem that one way of proving this would be to show the existence of non-algebraic numbers. Is there a simpler way to show this?

linear-algebra vector-spaces field-theory

asked Oct 07 '10 at 02:10

Elchanan Solomon

31,894

186

votes

8 answers

Intuition of the meaning of homology groups

I am studying homology groups and I am looking to try and develop, if possible, a little more intuition about what they actually mean. I've only been studying homology for a short while, so if possible I would prefer it if this could be kept…

general-topology soft-question algebraic-topology homology-cohomology

asked May 19 '11 at 20:29

Spyam

4,525

186

votes

2 answers

Can we ascertain that there exists an epimorphism $G\rightarrow H$?

Let $G,H$ be finite groups. Suppose we have an epimorphism $$G\times G\rightarrow H\times H$$ Can we find an epimorphism $G\rightarrow H$?

group-theory finite-groups abstract-algebra

asked Oct 25 '12 at 21:39

Kerry

1,869
1
12
3

185

votes

18 answers

How to prove Euler's formula: $e^{it}=\cos t +i\sin t$?

Could you provide a proof of Euler's formula: $e^{it}=\cos t +i\sin t$?

complex-analysis complex-numbers exponential-function

asked Aug 28 '10 at 04:17

Jichao

8,182

185

votes

6 answers

What were some major mathematical breakthroughs in 2016?

As the year is slowly coming to an end, I was wondering which great advances have there been in mathematics in the past 12 months. As researchers usually work in only a limited number of fields in mathematics, one often does not hear a lot of news…

soft-question education math-history big-list big-picture

asked Dec 29 '16 at 20:59

YukiJ

2,579

185

votes

53 answers

Is there any integral for the Golden Ratio?

I was wondering about important/famous mathematical constants, like $e$, $\pi$, $\gamma$, and obviously the golden ratio $\phi$. The first three ones are really well known, and there are lots of integrals and series whose results are simply those…

calculus integration big-list golden-ratio

asked Feb 14 '16 at 02:57

user266764

185

votes

8 answers

Why is Euler's Gamma function the "best" extension of the factorial function to the reals?

There are lots (an infinitude) of smooth functions that coincide with $f(n)=n!$ on the integers. Is there a simple reason why Euler's Gamma function $\Gamma (z) = \int_0^\infty t^{z-1} e^{-t} dt$ is the "best"? In particular, I'm looking for…

real-analysis education gamma-function special-functions

asked Aug 04 '10 at 15:01

pbrooks

1,953

184

votes

6 answers

What are the differences between rings, groups, and fields?

Rings, groups, and fields all feel similar. What are the differences between them, both in definition and in how they are used?

terminology abstract-algebra

asked Jul 20 '10 at 19:55

cobbal

2,135

184

votes

6 answers

Symmetry of function defined by integral

Define a function $f(\alpha, \beta)$, $\alpha \in (-1,1)$, $\beta \in (-1,1)$ as $$ f(\alpha, \beta) = \int_0^{\infty} dx \: \frac{x^{\alpha}}{1+2 x \cos{(\pi \beta)} + x^2}$$ One can use, for example, the Residue Theorem to show that $$ f(\alpha,…

calculus integration definite-integrals symmetry

asked Jan 01 '13 at 20:38

Ron Gordon

141,538

184

votes

14 answers

Why is gradient the direction of steepest ascent?

$$f(x_1,x_2,\dots, x_n):\mathbb{R}^n \to \mathbb{R}$$ The definition of the gradient is $$ \frac{\partial f}{\partial x_1}\hat{e}_1 +\ \cdots +\frac{\partial f}{\partial x_n}\hat{e}_n$$ which is a vector. Reading this definition makes me consider…

multivariable-calculus vector-analysis scalar-fields

asked Oct 29 '12 at 03:55

Jing

2,547

183

votes

12 answers

Prove that $\gcd(a^n - 1, a^m - 1) = a^{\gcd(n, m)} - 1$

For all $a, m, n \in \mathbb{Z}^+$, $$\gcd(a^n - 1, a^m - 1) = a^{\gcd(n, m)} - 1$$

elementary-number-theory induction divisibility ideals gcd-and-lcm

asked Oct 22 '10 at 00:47

Juan Liner

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