Difference between revisions of "User:Ddk001"
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<math>(p^2+1)(q^2+1)-((pq)^2-pq+1)</math> | <math>(p^2+1)(q^2+1)-((pq)^2-pq+1)</math> | ||
− | Find that perfect square. | + | where <math>p</math> and <math>q</math> are prime. Find that perfect square. |
2. Suppose there is complex values <math>x_1, x_2,</math> and <math>x_3</math> that satisfy | 2. Suppose there is complex values <math>x_1, x_2,</math> and <math>x_3</math> that satisfy |
Revision as of 18:56, 1 January 2024
Problems
See if you can solve these:
1. 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.
Solution
Suppose . Then,