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User:Temperal/The Problem Solver's Resource Tips and Tricks

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Introduction \| Other Tips and Tricks \| Methods of Proof \| You are currently viewing the tips and tricks section.

Other Tips and Tricks

This is a collection of general techniques for solving problems.

Don't be afraid to use casework! Sometimes it's the only way. (But be VERY afraid to use brute force.)
Remember that substitution is a useful technique! Example problem:

Example Problem 1

If $\tan x+\tan y=25$ and $\cot x+\cot y=30$ , find $\tan(x+y)$ .

Solution

Let $X = \tan x$ , $Y = \tan y$ . Thus, $X + Y = 25$ , $\frac{1}{X} + \frac{1}{Y} = 30$ , so $XY = \frac{5}{6}$ , hence $\tan(x+y)=\frac{X+Y}{1-XY}$ , which turns out to be $\boxed{150}$ .

This technique can also be used to solve quadratics of high degrees, i.e. $x^{16}+x^4+6=0$ ; let $y=x^4$ , and solve from there.

Remember the special properties of odd numbers: For any odd number $o$ , $o=2n\pm 1$ for some integer $n$ , and $o=a^2-(a-1)^2$ for some positive integer $a$ .

Example Problem 2

How many quadruples $(a,b,c,d)$ are there such that $a+b+c+d=98$ and $a,b,c,d$ are all odd?

Solution

Since they're odd, $a, b, c, d$ can each be expressed as $2n+1$ for some positive integer (or zero) $n$ . Thus: $2n_1-1+2n_2-1+2n_3+1+2n_4+1=98$

$\Rightarrow 2(n_1+n_2+n_3+n_4)+4=98$

$\Rightarrow 2(n_1+n_2+n_3+n_4)=94$

$\Rightarrow n_1+n_2+n_3+n_4=47$ Binomial coefficients will yield the answer of $\boxed{19600}$ .

The AM-GM and Trivial inequalities are more useful than you might imagine!

Memorize, memorize, memorize the following things:

The trigonometric facts.
Everything on the Combinatorics page.
Integrals and derivatives, especially integrals.

Remember, though, don't memorize without understanding!

Test your skills on practice AIMEs ( more resources) often!

Back to Introduction

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