Difference between revisions of "Northeastern WOOTers Mock AIME I Problems/Problem 10"
m (→Solution) |
m (→Solution) |
||
(2 intermediate revisions by the same user not shown) | |||
Line 27: | Line 27: | ||
'''Degree of Freedom 3: Rotation''' | '''Degree of Freedom 3: Rotation''' | ||
− | Let's take a closer look at the given condition. We have already changed it into <math>a^3 = -c^3</math>, <math>a \neq -c</math>. Let <math>a = | + | Let's take a closer look at the given condition. We have already changed it into <math>a^3 = -c^3</math>, <math>a \neq -c</math>. Let <math>a = \text{cis} |
+ | (\theta_a)</math> and <math>c = \text{cis} (\theta_c)</math>. By methods such as [[De Moivre's Theorem]], we determine the condition is true if and only if | ||
<cmath> \theta_c = \pm \frac{\pi}{3} - \theta_a </cmath> | <cmath> \theta_c = \pm \frac{\pi}{3} - \theta_a </cmath> | ||
Since this relationship is supposedly enough to fix <math>k^4</math>, we can set <math>\theta_a = 0 \Rightarrow a = 1</math> without loss of generality. | Since this relationship is supposedly enough to fix <math>k^4</math>, we can set <math>\theta_a = 0 \Rightarrow a = 1</math> without loss of generality. |
Latest revision as of 13:08, 9 August 2021
Problem 10
If are complex numbers such that then find the value of .
Solution
Our strategy is to take advantage of degrees of freedom. The given condition appears extremely weak (that is, it offers little information), yet apparently it uniquely determines . Counterintuitively, this very fact offers lots of information.
Degree of Freedom 1: Translation
Observe that replacing , , with , , , respectively, has no effect on the condition. Then, by setting , we can set without loss of generality. Substituting this into the condition and clearing denominators yields Then , with ; this implies .
Degree of Freedom 2: Dilation
Observe that replacing , , , with , , , respectively, has no effect on the condition. Then, an appropriate can be chosen such that ; that is, without loss of generality, .
Degree of Freedom 3: Rotation
Let's take a closer look at the given condition. We have already changed it into , . Let and . By methods such as De Moivre's Theorem, we determine the condition is true if and only if Since this relationship is supposedly enough to fix , we can set without loss of generality.
From here, we determine and . Then we can compute