Absolute value

This week, we learn about the Absolute Value and Properties of the Absolute Value.

How would you use absolute value to solve the following? >

If $x$ and $y$ are non-zero integers from $-10$ to $10$ (inclusive), what is the smallest positive value of $\frac{ | x+ y | } { |x| + |y| }?$

Share a problem which requires understanding of Absolute Value.

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Easy Math Editor

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Math	Appears as
Remember to wrap math in `$` ... `$` or `\[` ... `\]` to ensure proper formatting.
`2 \times 3`	$2 \times 3$
`2^{34}`	$2^{34}$
`a_{i-1}`	$a_{i-1}$
`\frac{2}{3}`	$\frac{2}{3}$
`\sqrt{2}`	$\sqrt{2}$
`\sum_{i=1}^3`	$\sum_{i=1}^3$
`\sin \theta`	$\sin \theta$
`\boxed{123}`	$\boxed{123}$

Comments

Is it $\frac{1}{19}$ ?, taking $x=-10,y=9$ because we need to minimize the numerator and at the same time we have to maximize the denominator.Please verify.

Kishan k - 7 years, 6 months ago

Yep!

Ahaan Rungta - 7 years, 6 months ago

For positive integers $1 \le n \le 100$ , let $f(n) = \sum_{i=1}^{100} i\left\lvert i-n \right\rvert.$ Compute $f(54)-f(55)$ .

Proposed by Aaron Lin for the NIMO

Ahaan Rungta - 7 years, 6 months ago

$-1-2-3-4...-53-54+55+56+57...+99+100 = \boxed{2080}$

Piyushkumar Palan - 7 years, 6 months ago

Problem 1.39. Solve the equation $|x-3|+|x+1|=4$ .

Problem 1.40. Show that the equation $|2x-3|+|x+1|+|5-x|=0.99$ has no solutions.

Problem 1.41. Let $a,b>0$ . Find the values of $m$ for which the equation

$|x-a|+|x-b|+|x+a|+|x+b|=m(a+b)$

has at least one real solution.

Problem 1.42. Find all possible values of the expression

$E(x,y,z)=\frac{|x+y|}{|x|+|y|}+\frac{|y+z|}{|y|+|z|}+\frac{|z+x|}{|z|+|x|}$

where $x,y,z$ are nonzero real numbers.

Problem 1.43. Find all positive real numbers $x,x_1,x_2,\dots,x_n$ such that

$|\log(xx_1)|+|\log(x_1x_2)|+\dots+|\log(xx_n)|\\+|\log\left(\frac{x}{x_1}\right)|+|\log\left(\frac{x}{x_2}\right)|+\dots+|\log\left(\frac{x}{x_n}\right)|\\=|\log x_1+\log x_2+\dots+\log x_n|.$

Problem 1.44. Prove that for all real numbers $a,b$ , we have

$\frac{|a+b|}{1+|a+b|}\le\frac{|a|}{1+|a|}+\frac{|b|}{1+|b|}$

Problem 1.45. Let $n$ be an odd positive integer and let $x_1,x_2,\dots,x_n$ be distinct real numbers. Find all one-to-one functions

$f:\{x_1,x_2,\dots,x_n\}\to\{x_1,x_2,\dots,x_n\}$

such that

$|f(x_1)-x_1|=|f(x_2)-x_2|=\dots=|f(x_n)-x_n|$

Problem 1.46. Suppose that the sequence $a_1,a_2,\dots,a_n$ satisfies the following conditions:

$\begin{aligned}a_1=0,&|a_2|=|a_1+1|,\dots,&|a_n|=|a_{n-1}+1|.\end{aligned}$

Prove that

$\frac{a_1+a_2+\dots+a_n}{n}\ge-\frac{1}{2}.$

Problem 1.47. Find real numbers $a,b,c$ such that

$|ax+by+cz|+|bx+cy+az|+|cx+ay+bz|=|x|+|y|+|z|,$

for all real numbers $x,y,z$ .

Source: Mathematical Olympiad Treasures, Titu Andreescu

Cody Johnson - 7 years, 6 months ago

(FUVEST 2012) Show the intervals of $x$ in which $|x^2-10x+21| \leq |3x-15|$ holds.

Guilherme Dela Corte - 7 years, 6 months ago

The left expression is factored into (x - 3)(x - 7) and the right expression is factored into 3(x-5). Thus, we can get rid of the absolute values by looking at the intervals $(-\infty, 3), (3, 5), (5, 7), (7, \infty)$ and applying the appropriate sign. Then we add the points $x = 3$ and $x = 7$ to the solution set because the LHS is 0. The rest of the solution is trivial.

Example $(-\infty, 3)$ --> $(x - 3)(x - 7)$ is positive, $3x - 15$ is negative. $x^2 - 10x + 21 \leq 15 - 3x \rightarrow x^2 - 7x - 6 = (x - 1)(x - 6) \leq 0$ , so the interval is $[1, 6] \bigwedge x < 3 \rightarrow [1, 3)$ .

Michael Tong - 7 years, 6 months ago

Michael, haven't you forgot the other interval?

Guilherme Dela Corte - 7 years, 6 months ago

sir i want to know that while integration and taking the limit from (-x to +x) we get area zero and how could it be so because we know that integration is area under the curve so how area could be subtracted from each other ?? plz solve my problem

Shujaat Khan - 7 years, 5 months ago

Math	Appears as
Remember to wrap math in `\(` ... `\)` or `\[` ... `\]` to ensure proper formatting.
`2 \times 3`	$2 \times 3$
`2^{34}`	$2^{34}$
`a_{i-1}`	$a_{i-1}$
`\frac{2}{3}`	$\frac{2}{3}$
`\sqrt{2}`	$\sqrt{2}$
`\sum_{i=1}^3`	$\sum_{i=1}^3$
`\sin \theta`	$\sin \theta$
`\boxed{123}`	$\boxed{123}$