MAGIC SQUARE: Calculate A*B*C
[7475] MAGIC SQUARE: Calculate A*B*C - The aim is to place the some numbers from the list (13, 20, 22, 27, 28, 29, 35, 50, 52, 58, 65) into the empty squares and squares marked with A, B an C. Sum of each row and column should be equal. All the numbers of the magic square must be different. Find values for A, B, and C. Solution is A*B*C. - #brainteasers #math #magicsquare - Correct Answers: 2
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MAGIC SQUARE: Calculate A*B*C

The aim is to place the some numbers from the list (13, 20, 22, 27, 28, 29, 35, 50, 52, 58, 65) into the empty squares and squares marked with A, B an C. Sum of each row and column should be equal. All the numbers of the magic square must be different. Find values for A, B, and C. Solution is A*B*C.
Correct answers: 2
#brainteasers #math #magicsquare
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A little boy wanted $100.0...

A little boy wanted $100.00 badly and prayed for two weeks but nothing happened. Then he decided to write GOD a letter requesting the $100. When the postal authorities received the letter addressed to GOD USA, they decided to send it to President Clinton. the President was so impressed, touched, and amused that he instructed his secretary to send the little boy a $5.00 bill. President Clinton thought this would appear to be a lot of money to a little boy. The little boy was delighted with the $5.00 and sat down to write a thank you note to GOD, which read: Dear GOD, Thank you very much for sending the money, however, I noticed that for some reason you had to send it through Washington D.C. and, as usual, those jerks deducted $95.00.

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George Wallace Kidder

Born 9 Dec 1902; died 1996 .American biochemist who demonstrated that a chemical distinction exists between tumorous and normal cells. He was a protozoologist for a number of years in his early career. His study of tetrahymena, a one-cell, pond ciliate with a basic biochemical pattern in most respects resembling that of human cells, led to his discoveries in abnormal growths and, ultimately, in cancerous cells. In spring of 1949, Kidder and his associates discovered that azaguanine, a metabolic analog of guanine, would inhibit the growth of certain forms of cancer and leukemia in mice without injuring the normal cells of the host. (Subsequently, other researchers found to be unsuccessful in cancer treatment of humans, even toxic.)
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