Questions tagged [inequality]

Questions on proving, manipulating and applying inequalities. Do not use this tag just because an inequality appears somewhere in your question.

An inequality is a mathematical relation between two quantities that are not necessarily equal, but bigger or smaller.

To prove inequalities, a number of proven inequalities can be used, including:

  • The AM-GM inequality

    Let $x_i>0$, $\alpha_i>0$ such that $\alpha_1+\alpha_2+...+\alpha_n=1$. Prove that $$\alpha_1x_1+\alpha_2x_2+...+\alpha_nx_n\geq x_1^{\alpha_1}x_2^{\alpha_2}...x_n^{\alpha_n}$$

For $\alpha_1=\alpha_2=...=\alpha_n=\frac{1}{n}$ we obtain the well-known $$\frac{x_1+x_2+\cdots+x_n}{n} \ge \sqrt[n]{x_1x_2\cdots x_n}$$

  • The Power Mean inequality (P-M).

    Let $a_1, a_2,\cdots, a_n$ be positive numbers and $p>q$. Then $$\left(\frac{a_1^p+a_2^p+\cdots+a_n^p}{n}\right)^{\frac{1}{p}} \geq \left(\frac{a_1^q+a_2^q+\cdots+a_n^q}{n}\right)^{\frac{1}{q}}$$

  • The Rearrangement inequality (R).

    Let $a_1\le\dots\le a_n$ and $b_1\le\dots\le b_n$. For all permutations $\sigma\in S_n$, $$\sum_{i=1}^na_ib_{n-i+1}\le\sum_{i=1}^na_ib_{\sigma(i)}\leq\sum_{i=1}^na_ib_i.$$

The rearrangement generalizes similar for more than two sequences of numbers.

  • The Cauchy-Schwarz inequality (C-S).

    If $a_1, a_2, \cdots, a_n$ and $b_1, b_2,\cdots, b_n$ are two sequences of real numbers, then $$\sum^{n}_{i=1} a_i^2 \sum^{n}_{i=1} b_i^2\geq\left(\sum^{n}_{i=1} a_ib_i \right)^2$$

  • The H$\ddot o$lder inequality (H).

    Let $a_1$, $a_2$,..., $a_n$, $b_1$, $b_2$,..., $b_n$, $\alpha$ and $\beta$ be positive numbers. Then $$\left(\sum_{i =1}^n a_i\right )^\alpha \left(\sum_{i =1}^n b_i \right )^\beta\geq \left(\sum_{i =1}^n (a_ib_i)^\frac{1}{\alpha+\beta}\right )^{\alpha+\beta} $$

  • The Schur inequalities (S):

    Let $x$, $y$ and $z$ be positive numbers and $t$ is a real number. Prove that:$$x^t(x-y)(x-z)+y^t(y-z)(y-x)+z^t (z-x)(z-y)\ge 0$$

  • Muirhead inequalities

    A sequence $a_1 \geq a_2 \geq \dots \geq a_n$ majorizes a sequence $b_1 \geq b_2 \geq \dots \geq b_n$ if $$\sum_{i=1}^k a_i \geq\sum_{i=1}^k a_i $$ for all $1\leq k < n$ and $$\sum_{i=1}^n a_i =\sum_{i=1}^n a_i $$ If sequence $(a_i)$ majorizes $(b_i)$ (notated as $a_i \succ b_i$), then $$\sum_{\text{sym}}x_1^{a_1}x_2^{a_2}\dots x_n^{a_n}\geq \sum_{\text{sym}}x_1^{b_1}x_2^{b_2}\dots x_n^{b_n}$$

30160 questions
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Can someone explain how to solve linear inequality?

Can someone explain how to solve this linear inequality?
de_s
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Given $a+b+c=4$ find $\max(ab+ac+bc)$

$a+b+c = 4$. What is the maximum value of $ab+ac+bc$? Could this be solved by a simple application of Jensen's inequality? If so, I am unsure what to choose for $f(x)$. If $ab+ac+bc$ is treated as a function of $a$ there seems no easy way to express…
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How prove this inequality $\sum\limits_{k=1}^{n}\frac{|\sin{k}|}{k}>\frac{2}{\pi}\ln{n}$

Question: show that $$\sum_{k=1}^{n}\dfrac{|\sin{k}|}{k}>\dfrac{2}{\pi}\ln{n}$$ I know this $$\sum_{k=1}^{\infty}\dfrac{\sin{k}}{k}=\dfrac{\pi-1}{2}$$ But for this inequality,I can't.Thank you
math110
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If $xyz=1$, prove $\frac{1}{y(x+y)}+\frac{1}{z(y+z)}+\frac{1}{x(z+x)} \geqslant \frac{3}{2}$

$x,y,z$ are positive real numbers such that $$xyz=1$$ Prove that $\dfrac{1}{y(x+y)}+\dfrac{1}{z(y+z)}+\dfrac{1}{x(z+x)} \geqslant \dfrac{3}{2}$. I have no idea how to solve this problem. I've tried Engel form of Cauchy inequality, but I get…
chaos
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If $x_1+x_2+\cdots x_8=1$, then show that $x_1x_2+x_2x_3+x_3x_4+x_4x_1+x_5x_6+x_6x_7+x_7x_8+x_8x_5+x_1x_5+x_2x_6+x_3x_7+x_4x_8\le 1/4$.

If $x_1+x_2+\cdots x_8=1$ and $x_1,\ldots x_8$ are all non-negative numbers, then show that $x_1x_2+x_2x_3+x_3x_4+x_4x_1+x_5x_6+x_6x_7+x_7x_8+x_8x_5+x_1x_5+x_2x_6+x_3x_7+x_4x_8\le 1/4$. I'd like to interpret this prolem as follows: Think of…
user45955
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How find the minimum $\frac{(5y+2)(2z+5)(x+3y)(3x+z)}{xyz}$,if $x,y,z>0$

let $x,y,z>0$, find the minimum of the value $$\dfrac{(5y+2)(2z+5)(x+3y)(3x+z)}{xyz}$$ I think we can use AM-GM inequality to find it. $$5y+2=y+y+y+y+y+1+1\ge 7\sqrt[7]{y^5}$$ $$2x+5=x+x+1+1+1+1+1\ge 7\sqrt[7]{x^2}$$ $$x+3y=x+y+y+y\ge…
math110
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Prove $\frac{ab}{1+c^2}+\frac{bc}{1+a^2}+\frac{ca}{1+b^2}\le\frac{3}{4}$ if $a^2+b^2+c^2=1$

Ff $a,b,c$ are positive real numbers that $a^2+b^2+c^2=1$ ,Prove: $$\frac{ab}{1+c^2}+\frac{bc}{1+a^2}+\frac{ca}{1+b^2}\le\frac{3}{4}$$ Additional info: I'm looking for solutions and hint that using Cauchy-Schwarz and AM-GM because I have…
user2838619
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How to prove this inequality without using Muirhead's inequality?

I ran into a following problem in The Cauchy-Schwarz Master Class: Let $x, y, z \geq 0$ and $xyz = 1$. Prove $x^2 + y^2 + z^2 \leq x^3 + y^3 + z^3$. The problem is contained in the chapter about symmetric polynomials and Muirhead's inequality. The…
ante.ceperic
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Larger of $\cos(\ln x)$ or $\ln(\cos x)$

Which is larger : $\cos(\ln x)$ or $\ln(\cos x)$ if $e^{-\pi/2} < x < \pi/2$ How do I solve such a problem? Any help would be welcome.
user34304
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How to estimate $\sum_{|\alpha|\leq p} \binom{p}{|\alpha|}$?

I'm trying to find some estimates for some PDE I'm working on. I'd like to estimate the sum $$\sum_{|\alpha|\leq p} \binom{p}{|\alpha|},$$ where $\alpha\in\mathbb N_0^n$ and $\mathbb N_0=\mathbb N\cup\{0\}$. I know, $$\#\{\alpha\in\mathbb N_0^n:…
PtF
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Prove $\sum \limits_{cyc} \frac{1+b^2+c^4}{a^+b^2+c^3}\geq 3$

If $a,b,c$ are positive real numbers, prove $$\sum \limits_{cyc} \frac{1+b^2+c^4}{a+b^2+c^3}\geq 3$$ Additional info: We should only use Cauchy (preferred to used at least once and more than AM-GM) and AM-GM. We are not allowed to use…
user2838619
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prove $\sum \limits_{cyc} \frac{x}{x+\sqrt{(x+y)(x+z)}}\leq 1$

If $x$,$y$,$z$ are positive real numbers,Prove:$$\sum \limits_{cyc} \frac{x}{x+\sqrt{(x+y)(x+z)}}\leq 1$$ Using this two inequality: $\sum ^n_{i=1} \sqrt{a_ib_i}\leq\sqrt {ab} $ (we call it $A$ inequality) $\frac {ab}{a+b} \geq \sum ^n_{i=1}…
user2838619
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Prove that $n^n \le (n!)^2$.

Prove that $n^n \le (n!)^2$. There is an elementary solution, which I haven't been able to find. So far I tried manipulating and pairing terms but nothing worked. I would appreciate any help!
Francis
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How to show that $(a+b)^p\le 2^p (a^p+b^p)$

If I may ask, how can we derive that $$(a+b)^p\le 2^p (a^p+b^p)$$ where $a,b,p\ge 0$ is an integer?
Cookie
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How prove this inequality?

show that $$\dfrac{\sqrt{2}}{2}
math110
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