Yep! Go ahead and post problems. Good luck at the BdMO.

- Tue Jan 29, 2013 11:58 am
- Forum: Social Lounge
- Topic: May We Post Regional Problems?
- Replies:
**2** - Views:
**820**

So another new year at BdMO forum and time to impose embargo. Please don't post divisional MO problems. Don't risk your life!

- Sun Dec 23, 2012 11:20 pm
- Forum: News / Announcements
- Topic: Posting BDMO 2013 problems: ZERO tolerance!
- Replies:
**7** - Views:
**7396**

ফোরামে স্বাগতম। আশা করি নিয়মিত আলোচনায় যুক্ত থাকবে।

- Wed Aug 15, 2012 9:51 pm
- Forum: Introductions
- Topic: আমি জয়
- Replies:
**1** - Views:
**904**

Congratulations! I am planning to change the banner of the forum for a while to honor our heroes!

- Mon Jul 16, 2012 1:44 pm
- Forum: News / Announcements
- Topic: IMO-2012 result of Bangladesh team
- Replies:
**4** - Views:
**1776**

Find all positive integers $n$ for which there exist non-negative integers $a_1,a_2,\cdots, a_n$ such that \[\frac{1}{2^{a_1}}+\frac{1}{2^{a_2}}+\cdots+\frac{1}{2^{a_n}}=\frac{1}{3^{a_1}}+\frac{2}{3^{a_2}}+\cdots+\frac{n}{3^{a_n}}=1\]

- Thu Jul 12, 2012 1:19 am
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 2 Problem 6
- Replies:
**1** - Views:
**1645**

Let $ABC$ be a triangle with $\angle {ACB}=90^0$ and let $D$ be the foot of the altitude from $C$. Let $X$ be a point in the interior of the segment $CD$. Let $K$ be the point on the segment $AX$ such that $BK=BC$. Similarly, let $L$ be the point on the segment $BX$ such that $AL=AC$. Let $M$ be the...

- Thu Jul 12, 2012 1:02 am
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 2 Problem 5
- Replies:
**5** - Views:
**2473**

Find all functions $f:\mathbb{Z}\rightarrow \mathbb{Z}$, such that for all $a+b+c=0$ holds:

\[f(a)^2+f(b)^2+f(c)^2=2f(a)f(b)+2f(b)f(c)+2f(c)f(a).\]

\[f(a)^2+f(b)^2+f(c)^2=2f(a)f(b)+2f(b)f(c)+2f(c)f(a).\]

- Wed Jul 11, 2012 11:29 pm
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 2 Problem 4
- Replies:
**4** - Views:
**2724**

It seems that there is no $a_1$ thanks for pointing out.

- Tue Jul 10, 2012 11:56 pm
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 1 Problem 2
- Replies:
**12** - Views:
**4622**

The liar's guessing game is a game played between two players $A$ and $B$. The rules of the game depend on two positive integers $k$ and $n$ which are known to both players. At the start of the game $A$ chooses integers $x$ and $N$ with $1 \le x \le N.$ Player $A$ keeps $x$ secret, and truthfully te...

- Tue Jul 10, 2012 11:51 pm
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 1 Problem 3
- Replies:
**1** - Views:
**1836**

Let $n \ge 3$ be an integer, and let $a_2, a_3, \ldots , a_n$ be positive real numbers such that $a_2\cdots a_n = 1.$

Prove that \[(1+a_2)^2(1+a_3)^3\cdots (1+a_n)^n > n^n\]

Prove that \[(1+a_2)^2(1+a_3)^3\cdots (1+a_n)^n > n^n\]

- Tue Jul 10, 2012 11:31 pm
- Forum: International Mathematical Olympiad (IMO)
- Topic: IMO 2012: Day 1 Problem 2
- Replies:
**12** - Views:
**4622**