MAGIC SQUARE: Calculate A-B+C
[6075] MAGIC SQUARE: Calculate A-B+C - The aim is to place the some numbers from the list (4, 5, 7, 10, 11, 13, 23, 24, 26, 88) 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: 12 - The first user who solved this task is Nasrin 24 T
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MAGIC SQUARE: Calculate A-B+C

The aim is to place the some numbers from the list (4, 5, 7, 10, 11, 13, 23, 24, 26, 88) 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: 12
The first user who solved this task is Nasrin 24 T.
#brainteasers #math #magicsquare
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A 6th Grade Teacher Asks a Question

A 6th-grade teacher posed the following problem to one of her arithmetic classes:
“A wealthy man dies and leaves ten million dollars.
One-fifth is to go to his wife, one-fifth is to go to his son, one-sixth to his butler, and the rest to charity.
Now, what does each get?”
After a very long silence in the classroom, one little boy raised his hand.
With complete sincerity in his voice, answered, “A lawyer!”

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J. Georg Bednorz

Born 16 May 1950.Johannes Georg Bednorz is a German physicist who shared the 1987 Nobel Prize for Physics (with Karl Alex Müller) for their joint discovery of superconductivity in a new class of materials at temperatures higher than had previously been thought attainable. They startled the world by reporting superconductivity in a layered, ceramic material at a then record-high temperature of 33 kelvin (that is 33 degrees above absolute zero, or roughly -460 degrees Fahrenheit). Their discovery set off an avalanche of research worldwide into related materials that yielded dozens of new superconductors, eventually reaching a transition temperature of 135 kelvin. Today, he develops complex oxide compounds with novel crystal structures for possible uses in microelectronics.
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