Hardest geometry question in history answered by student trivially............ How? (1 Viewer)

no_arg · Feb 9, 2020

Suppose that PQR is an equilateral triangle with an interior point X. Let angle PXR = s and angle QXR = t. Find (in terms of s and t) the three angles of any triangle with side lengths equal to PX, QX and RX.

Drdusk · Feb 9, 2020

I was that student btw

Drdusk · Feb 9, 2020

I think it's because X must only be in the center for a triangle to form?

no_arg · Feb 9, 2020

Drdusk said:
I think it's because X must only be in the center for a triangle to form?

No X can be any interior point. PX QX and RX need to be lifted out of the diagram to form another triangle.

fan96 · Feb 9, 2020

no_arg said:
No X can be any interior point. PX QX and RX need to be lifted out of the diagram to form another triangle.

Must the angles be expressed only in terms of $s$ and $t$ ?

The best I could do is

$s' = \arccos\left( \cos s + \frac{k^2-RX^2}{2\cdot PX \cdot QX}\right),$

$t' = \arccos\left( \cos t + \frac{k^2-PX^2}{2\cdot QX \cdot RX}\right),$

where $k$ is the side length of the equilateral triangle and $s', \, t'$ are the angles of the newly formed triangle.

(Hopefully that's correct...)

ultra908 · Feb 9, 2020

hehe i have spoilers...

no_arg · Feb 9, 2020

fan96 said:
Must the angles be expressed only in terms of $s$ and $t$ ?

The best I could do is

$s' = \arccos\left( \cos s + \frac{k^2-RX^2}{2\cdot PX \cdot QX}\right),$

$t' = \arccos\left( \cos t + \frac{k^2-PX^2}{2\cdot QX \cdot RX}\right),$

where $k$ is the side length of the equilateral triangle and $s', \, t'$ are the angles of the newly formed triangle.

(Hopefully that's correct...)

Given similarity, the solution cannot depend on the side length of the original triangle. Answer is disturbingly simple and the proof is stunning.

quickoats · Feb 10, 2020

Random point inside an equilateral triangle

Take any equilateral triangle and pick a random point inside the triangle. Draw from each vertex a line to the random point. Two of the three angles at the point are known let's say $x$,$y$. If the

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no_arg · Feb 10, 2020

quickoats said:
Random point inside an equilateral triangle

Take any equilateral triangle and pick a random point inside the triangle. Draw from each vertex a line to the random point. Two of the three angles at the point are known let's say $x$,$y$. If the

math.stackexchange.com

Both proofs a little clumsy

no_arg · Feb 10, 2020

Simply rotate the entire diagram about P anticlockwise by sixty degrees and voila!

fan96 · Feb 10, 2020

no_arg said:
Given similarity, the solution cannot depend on the side length of the original triangle. Answer is disturbingly simple and the proof is stunning.

The quantity

$\frac{k^2-RX^2}{2\cdot PX \cdot QX}$

can probably be simplified so as to remove $k$ .

The answer I gave holds numerically for all such equilateral and isosceles triangles formed and most likely for the rest of them too.

The other solutions are definitely much nicer though.

no_arg said:
Both proofs a little clumsy

I think the first answer given is essentially the same as the one you posted, just a bit more direct.

no_arg · Feb 11, 2020

fan96 said:
The quantity

$\frac{k^2-RX^2}{2\cdot PX \cdot QX}$

can probably be simplified so as to remove $k$ .

The answer I gave holds numerically for all such equilateral and isosceles triangles formed and most likely for the rest of them too.

The other solutions are definitely much nicer though.

I think the first answer given is essentially the same as the one you posted, just a bit more direct.

The use of congruence makes it less direct.

jyu · Apr 24, 2020

(s-60), (t-60), (300-s-t)

jyu · Apr 24, 2020

by the way, I was that student

jyu · Apr 25, 2020

Suppose that PQR is a 50-60-70 (respectively) triangle with an interior point X. Let angle PXR = s and angle QXR = t.
Find (in terms of s and t) the three angles of any triangle with side lengths equal to PX, QX and RX.

idkkdi · Dec 28, 2020

jyu said:
Suppose that PQR is a 50-60-70 (respectively) triangle with an interior point X. Let angle PXR = s and angle QXR = t.
Find (in terms of s and t) the three angles of any triangle with side lengths equal to PX, QX and RX.

so is anyone going to solve this?

idkkdi · Dec 28, 2020

idkkdi said:
so is anyone going to solve this?

jyu said:
Suppose that PQR is a 50-60-70 (respectively) triangle with an interior point X. Let angle PXR = s and angle QXR = t.
Find (in terms of s and t) the three angles of any triangle with side lengths equal to PX, QX and RX.

Can someone please solve this lol.

Velocifire · Dec 28, 2020

idkkdi · Dec 28, 2020

Velocifire said:
View attachment 29800

hit up jesus and tell him to solve the variant question.

Velocifire · Dec 28, 2020

idkkdi said:
hit up jesus and tell him to solve the variant question.

There are some things beyond my power

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