JKM sir, very beautiful design.
Mahalakshmi
nice design!-suguna murugesan
Aahaa...nice pattern jkm sir....and i am curious to know about ur new profile picture....what does it imply...i know J and K are the tenth and eleventh placed alphabets...but it seems u have reversed it...pl let me know...
Look like cartoon picture.... done a good work jkm sir.,
A.Julien
very very nice pattern sir....aaaahhhaa good question rani mam. I'm also very curious about the same. Sir please explain.
WoW!! :)
nice pattern
Good cartoon pattern. Even I am curious about the profile picture.
Very very nice simplified cartoon pattern. Its really looking very good.
Lovely pattern.
Thanks everybody! As for the M1001 puzzle, it is very simple, anybody who has some idea of the computer can solve the puzzle.
Regards! - mOhana
very nice pattern.......
1101 looks like a binary number, its value is 13 and M is the 13rd letter, Am I close to the answer mOhanaji.
Sorry 13th letter.
Yes, Vinci ma'am, congratulations!
Regards! - mOhana
Thanks mOhanaji, It was a warm up session for my precious organ :)
Hey vinci....congrats....jkm sir believe me ...even i had a thought about binary numbers when u said related to computers... eventhough i taught integration,differentiation...even permutation and trigonometry to my daughter at her 9th std...i loved to hate this binary system ...donno why i was allergic to this...although my daughter said this is d most easiest amma...haha
Do you know that binary system existed in India for nearly 2000 years, of all the places, in prosody?
Regards! - mOhana
Yes jkm sir ...i have heard about this and also zero-0 was invented in India only ....am I right?
Vinci, congrats that you solved the puzzle. But JKM sir please do explain the reason why you have put this 13th alphabet and 13th number in binary system in your profile picture. Does that have any relationsjip to your name or is it ur lucky number or is it ur birth date?
Mahalakshmi
Mahalakshmi, answer is in his comment :)
Thanks everybody! As for the M1001 puzzle, it is very simple, anybody who has some idea of the computer can solve the puzzle.
Regards! - mOhana
nice design sir.
Interesting work
rajamma
vinci,rajamma congrats!Rani,vinci still remember binary and trignometry?good then be ready for my next quiz...ah ah joking.Sir, fantastic work nice doggy face it reminded me of my valentine picture with my hero don't u ?
Nice design JKM Sir. The discussion on the profile is quite educative.
WOW! great Vinci...you solved the puzzle. great idea JKM sir.
In the system of prosody (the art and science of writing poetry) in Sanskrit and other derived languages except Tamil (they follow a different system of nEr and nirai), a long syllable which takes twice as much time to utter as a short syllable is called guru (heavy), and the short syllable a laghu (light). A line of poem consists of a group of these long and short syllables. Since any syllable has to be a guru or laghu, the line consists of binary numbers. The guru is given the value zero and laghu 1. Thus if we have a short-short-long-short syllabic structure, it is equivalent to 1101. The funny thing is ancient Indians wrote numbers in an opposite direction. That is, the least significant digit is at the left and the most significant digit is at the right. They also did multiplication from left to right. Thus the value of 1101 according to them is 11. For 13, it will be 1011. Not only this, they also knew how many arrangements with one zero and three ones are possible. This is nothing but our present binomial theorem (a in the binomial theorem is zero and b is one). These are all nearly about 1500 to 2000 years old. Thus each line in a poem with a certain arrangement of long and short syllables has a unique number associated with it. Thus if we know that number we know the syllabic arrangement. This is the origin of the binomial numbers in India. Its origin is in poetry and also music (in the tALa system).
Regards! - mOhana
Thanks for reminding the guru and laghu of the kannada grammer .Thanks for the brillient explanation ab;out our history of 0 and 1
Very nice pattern. Thanks for your well explained information.