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Its My Identity!
Wednesday, 29 August 2012
Tuesday, 24 July 2012
Monday, 23 July 2012
Postulates and Theorems of Boolean Algebra :)
Postulates and Theorems of Boolean Algebra
Duality Principle:
Using Boolean algebra techniques, the expression may be significantly simplified:
Assume A, B, and C are logical states that can have the values 0 (false) and 1 (true)."+" means OR, "·" means AND, and NOT[A] means NOT A
Postulates
(1) | A + 0 = A | A · 1 = A | identity |
(2) | A + NOT[A] = 1 | A · NOT[A] = 0 | complement |
(3) | A + B = B + A | A · B = B · A | commutative law |
(4) | A + (B + C) = (A + B) + C | A · (B · C) = (A · B) · C | associative law |
(5) | A + (B · C) = (A + B) · (A + C) | A · (B + C) = (A · B) + (A · C) | distributive law |
Theorems
(6) | A + A = A | A · A = A | ||
(7) | A + 1 = 1 | A · 0 = 0 | ||
(8) | A + (A · B) = A | A · ( A + B) = A | ||
(9) | A + (NOT[A] · B) = A + B | A · (NOT[A] + B) = A · B | ||
(10) | (A · B) + (NOT[A] · C) + (B · C) = (A · B) + (NOT[A] · C) | A · (B + C) = (A · B) + (A · C) | ||
(11) | NOT[A + B] = NOT[A] · NOT[B] | NOT[A · B] = NOT[A] + NOT[B] | De Morgan's theorem |
Friday, 20 July 2012
Cope and Robbers!
<div><a href="http://www.shegame.com/view/9473/Cops and Robbers"><img src="http://www.shegame.com/flash_games/images/copsandrobbers.jpg" width="180" height="135" border="0" alt="" /></a><br /><a href="http://www.shegame.com/view/9473/Cops and Robbers">Cops and Robbers</a></div>
Monday, 16 July 2012
Yelloow JOSEPHITES!!!!
Myself, Raymond Joshua studying in St.Joseph's Indian Composite PU College (SJICPUC) 1st Year PCMC, Very glad to let you Josephites know that this blog is and for only you Josephites.Any latest or hot news will be published here.(including model papers,key answers,etc)
SO STAY UPDATED ALWAYS!!
-Sincerely,
Raymond (Joe)
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