geomerty

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Math Mad Muggle
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geomerty

Unread post by Math Mad Muggle » Mon Jan 30, 2017 10:58 pm

plz, help me solving this
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Absur Khan Siam
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Re: geomerty

Unread post by Absur Khan Siam » Sat Feb 11, 2017 10:59 pm

Let's extend AC and define two points $F$ and $E$ such that $CE = BC$ and
$CD = CF$.
By some angle chasing,
$\angle DEF = \angle EDF \Rightarrow DF = EF$
$\angle DFA = \angle FAD \Rightarrow DF = AD$
$\therefore AD = EF$

Now ,
$AD + CD = EF + CF = CE = BC = 2017$ :D
"(To Ptolemy I) There is no 'royal road' to geometry." - Euclid

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jayon_2
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Re: geomerty

Unread post by jayon_2 » Tue Feb 14, 2017 12:48 pm

Absur Khan Siam wrote:Let's extend AC and define two points $F$ and $E$ such that $CE = BC$ and
$CD = CF$.
By some angle chasing,
$\angle DEF = \angle EDF \Rightarrow DF = EF$
$\angle DFA = \angle FAD \Rightarrow DF = AD$
$\therefore AD = EF$

Now ,
$AD + CD = EF + CF = CE = BC = 2017$ :D
Summation of any two side of a triangle is bigger than the third side.
But u have showed that,$AD + CD = EF + CF = CE = BC = 2017$,Here $$AD+CD=BC$$ which is practically impossible.?!

aritra barua
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Re: geomerty

Unread post by aritra barua » Sat Apr 08, 2017 12:31 pm

<FAD itself measures 100 degree,then how can you concurr that AD=DF?I think you did not consider triangle DAF. ..According to your construction,<BCE=140 as it is supplementary to <ACB. Therefore,as CF=CD, <FCD=160 and <DFC=<DFA merely measures 10...check out your angle chasing...

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Thamim Zahin
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Re: geomerty

Unread post by Thamim Zahin » Sat Apr 08, 2017 1:18 pm

This is a Dhaka regional 2017. I solved it using scale and compass(just measured the length with my scale. Got $2017$, which was definitely the answer because this is 2017) :p
I think we judge talent wrong. What do we see as talent? I think I have made the same mistake myself. We judge talent by the trophies on their showcases, the flamboyance the supremacy. We don't see things like determination, courage, discipline, temperament.

dshasan
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Re: geomerty

Unread post by dshasan » Sat Apr 08, 2017 2:26 pm

I am showing the angle chasing part

Extend $AC$ in such a way so that $F,E$ are on the opposite side of $C$. Now, $\angle CFD = \angle CDF = 80$
$\angle FDA = 20$, $\angle DAF = \angle DFA = 80$, so, $DA = DF$.
Again, $\angle CBE = \angle CEB = 70$, $\angle DBE = 30$. Now, extend $CD$ so that it meets $BE$ at $X$. $\angle CXE = 90$.Now, $\bigtriangleup CXE $ is congruent to $\bigtriangleup CXB$. So, $BX = XE$. SO, $\bigtriangleup BDE$ is isosceles and $\angle DEB = 30 \Rightarrow \angle DEF = 40$. So, $\bigtriangleup DEF$ is isosceles and $DF = FE$. So, $CD + AD = CF + DF = CF + EF = CE = BC = 2017$.
The study of mathematics, like the Nile, begins in minuteness but ends in magnificence.

- Charles Caleb Colton

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Thanic Nur Samin
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Re: geomerty

Unread post by Thanic Nur Samin » Sat Apr 08, 2017 3:07 pm

Here is an easy solution:

Take $K$ on $BC$ so that $CD=CK$. Now, since $\triangle CDK$ is isosceles and $\angle DCK=20^{\circ}$, $\angle DKC=80^{\circ}$ implying $ADKC$ is cyclic.

Now, $\angle BDK=\angle BCA=\angle ABC$, so $BK=DK$. Again, $CD$ is the angle biscector, so $AD=DK$. So $AD+CD=BK+KC=BC=2017$
Hammer with tact.

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Atonu Roy Chowdhury
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Re: geomerty

Unread post by Atonu Roy Chowdhury » Sat Apr 08, 2017 11:32 pm

The simplest solution seems to me:

1. Use Cosine Law to find $AB$
2. Angle Bisector Theorem to find $AD$
3. Cosine Law on $\triangle ADC$ to find $CD$
This was freedom. Losing all hope was freedom.

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ahmedittihad
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Re: geomerty

Unread post by ahmedittihad » Sun Apr 09, 2017 7:39 pm

What is cosine law?
Frankly, my dear, I don't give a damn.

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Atonu Roy Chowdhury
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Re: geomerty

Unread post by Atonu Roy Chowdhury » Sun Apr 09, 2017 7:59 pm

ahmedittihad wrote:What is cosine law?
In $\triangle ABC$ , $c^2 = a^2 + b^2 - 2ab \cos C$
This was freedom. Losing all hope was freedom.

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