Difference between revisions of "User:Superagh"
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====Power mean (weighted)==== | ====Power mean (weighted)==== | ||
Statement: Given positive integers, <math>a_1, a_2, a_3 \cdots a_n</math>, and <math>w_1, w_2 \cdots w_n</math> has a positive sum, and integer <math>x</math>, define <math>pm_x(a_1, a_2, \cdots a_n)</math> to be the following expression: <cmath>(w_1a_1^x+w_2a_2^x \cdots w_na_n^x)^{\frac{1}{x}}</cmath> When <math>x\neq0</math>. | Statement: Given positive integers, <math>a_1, a_2, a_3 \cdots a_n</math>, and <math>w_1, w_2 \cdots w_n</math> has a positive sum, and integer <math>x</math>, define <math>pm_x(a_1, a_2, \cdots a_n)</math> to be the following expression: <cmath>(w_1a_1^x+w_2a_2^x \cdots w_na_n^x)^{\frac{1}{x}}</cmath> When <math>x\neq0</math>. | ||
+ | <cmath>a_1^w_1a_2^w_2 \cdots a_n^w_n</cmath> when <math>x=0</math> | ||
==Combinatorics== | ==Combinatorics== |
Revision as of 11:57, 24 June 2020
Contents
Introduction
Ok, so inspired by master math solver Lcz, I have decided to take Oly notes (for me) online! I'll probably be yelled at even more for staring at the computer, but I know that this is for my good. (Also this thing is almost the exact same format as Lcz's :P ). (Ok, actually, a LOT of credits to Lcz)
Algebra
Problems worth noting/reviewing
I'll leave this empty for now, I want to start on HARD stuff yeah!
Inequalities
We shall begin with INEQUALITIES! They should be fun enough. I should probably begin with some theorems.
Power mean (special case)
Statement: Given that , where . Define the as: where , and: where .
If , then
Power mean (weighted)
Statement: Given positive integers, , and has a positive sum, and integer , define to be the following expression: When .
\[a_1^w_1a_2^w_2 \cdots a_n^w_n\] (Error compiling LaTeX. Unknown error_msg)
when