Difference between revisions of "1983 AIME Problems/Problem 5"
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Substituting, <math>w^3-21w+20=0</math>. Factored, <math>(w-1)(w+5)(w-4)=0</math> (the Rational Root Theorem may be used here, along with synthetic division) | Substituting, <math>w^3-21w+20=0</math>. Factored, <math>(w-1)(w+5)(w-4)=0</math> (the Rational Root Theorem may be used here, along with synthetic division) | ||
− | The largest possible solution is therefore <math>x+y=w= | + | The largest possible solution is therefore <math>x+y=w=\boxed{004}</math>. |
== Solution 2== | == Solution 2== |
Revision as of 10:58, 27 February 2011
Contents
[hide]Problem
Suppose that the sum of the squares of two complex numbers and is and the sum of the cubes is . What is the largest real value that can have?
Solution 1
One way to solve this problem seems to be by substitution.
and
Because we are only left with and , substitution won't be too bad. Let and .
We get and
Because we want the largest possible , let's find an expression for in terms of .
.
Substituting, . Factored, (the Rational Root Theorem may be used here, along with synthetic division)
The largest possible solution is therefore .
Solution 2
An alternate way to solve this is to let and .
Because we are looking for a value of that is real, we know that , and thus .
Expanding will give two equations, since the real and imaginary parts must match up.
Looking at the imaginary part of that equation, , so , and and are actually complex conjugates.
Looking at the real part of the equation and plugging in , , or .
Now, evaluating the real part of , which equals (ignoring the odd powers of ):
Since we know that , it can be plugged in for in the above equataion to yield:
Since the problem is looking for to be a positive integer, only positive half-integers (and whole-integers) need to be tested. From the Rational Roots theorem, all fail, but does work. Thus, the real part of both numbers is , and their sum is
See also
1983 AIME (Problems • Answer Key • Resources) | ||
Preceded by Problem 4 |
Followed by Problem 6 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |