Difference between revisions of "2013 AMC 12A Problems/Problem 25"
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Generally, consider the imaginary part of a radical of a complex number: <math>\sqrt{u}</math>, where <math>u = v+wi = r e^{i\theta}</math>. | Generally, consider the imaginary part of a radical of a complex number: <math>\sqrt{u}</math>, where <math>u = v+wi = r e^{i\theta}</math>. | ||
− | <math>Im (\sqrt{u}) = Im(\pm \sqrt{r} e^{i\theta/2}) = \pm \sqrt{r} \sin( | + | <math>Im (\sqrt{u}) = Im(\pm \sqrt{r} e^{i\theta/2}) = \pm \sqrt{r} \sin(\theta/2) = \pm \sqrt{r}\sqrt{\frac{1-\cos\theta}{2}} = \pm \sqrt{\frac{r-v}{2}}</math>. |
Now let <math>u= -5/4 + c</math>, then <math>v = -5/4 + a</math>, <math>w=b</math>, <math>r=\sqrt{v^2 + w^2}</math>. | Now let <math>u= -5/4 + c</math>, then <math>v = -5/4 + a</math>, <math>w=b</math>, <math>r=\sqrt{v^2 + w^2}</math>. |
Revision as of 17:34, 18 July 2013
Problem
Let be defined by . How many complex numbers are there such that and both the real and the imaginary parts of are integers with absolute value at most ?
Solution
Suppose . We look for with such that are integers where .
First, use the quadratic formula:
Generally, consider the imaginary part of a radical of a complex number: , where .
.
Now let , then , , .
Note that if and only if . The latter is true only when we take the positive sign, and that ,
or , , or .
In other words, for all , satisfies , and there is one and only one that makes it true. Therefore we are just going to count the number of ordered pairs such that , are integers of magnitude no greater than , and that .
When , there is no restriction on so there are pairs;
when , there are pairs.
So there are in total.
See also
2013 AMC 12A (Problems • Answer Key • Resources) | |
Preceded by Problem 24 |
Followed by Last Question |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 • 16 • 17 • 18 • 19 • 20 • 21 • 22 • 23 • 24 • 25 | |
All AMC 12 Problems and Solutions |
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