Difference between revisions of "User:Ddk001"
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Revision as of 19:17, 1 January 2024
Contents
Problems
See if you can solve these:
1. (Much easier) There is one and only one perfect square in the form
where and are prime. Find that perfect square.
2. Suppose there is complex values and that satisfy
Find .
3. Suppose
Find the remainder when is divided by 1000.
4. Suppose is a -degrees polynomial. The Fundamental Theorem of Algebra tells us that there are roots, say . Suppose all integers ranging from to satisfies . Also, suppose that
for an integer . If is the minimum possible value of
.
Find the number of factors of the prime in .
5. (Much harder) is an isosceles triangle where . Let the circumcircle of be . Then, there is a point and a point on circle such that and trisects and , and point lies on minor arc . Point is chosen on segment such that is one of the altitudes of . Ray intersects at point (not ) and is extended past to point , and . Point is also on and . Let the perpendicular bisector of and intersect at . Let be a point such that is both equal to (in length) and is perpendicular to and is on the same side of as . Let be the reflection of point over line . There exist a circle centered at and tangent to at point . intersect at . Now suppose intersects at one distinct point, and , and are collinear. If , then can be expressed in the form , where and are not divisible by the squares of any prime. Find .
Someone mind making a diagram for this?
User Counts
If this is you first time visiting this page, change the number below by one. (Add 1, do NOT subtract 1)
Doesn't that look like a number on a pyramid?
Answer key & solution to the problems
I will leave a big gap below this sentence so you won't see the answers accidentally.
dsf
fsd
Here:
1. 049
2. 170
3. 736
4. 011
5. 054
Solutions:
Problem 1
There is one and only one perfect square in the form
Find that perfect square.
Solutions
. Suppose . Then, , so since , so is less than both and and thus we have and . Adding them gives in some order. Hence, .
Problem 2
Suppose there are complex values and that satisfy
Find .
Solutions
To make things easier, instead of saying , we say
Now, we have