Square root of two: Difference between revisions

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imported>Jitse Niesen
(→‎Proof of Irrationality: x = 2 * k, not k = 2 * x; also reformulate)
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The [[square root]] of two, denoted <math>\sqrt{2}</math>, is the positive number whose square equals 2. It is approximately 1.4142135623730950488016887242097. It provides a typical example of an [[irrational number]].
The [[square root]] of two, denoted <math>\sqrt{2}</math>, is the positive number whose square equals 2. It is approximately 1.4142135623730950488016887242097. It provides a typical example of an [[irrational number]].


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Since <math>k</math> is an integer, <math>y^2</math> and therefore also <math>y</math> must ''also'' be even. However, if <math>x</math> and <math>y</math> are both even, they share a common [[factor]] of 2, making them ''not'' mutually prime. And that is a contradiction, so the assumption must be false, and <math>\sqrt{2}</math> must not be rational.
Since <math>k</math> is an integer, <math>y^2</math> and therefore also <math>y</math> must ''also'' be even. However, if <math>x</math> and <math>y</math> are both even, they share a common [[factor]] of 2, making them ''not'' mutually prime. And that is a contradiction, so the assumption must be false, and <math>\sqrt{2}</math> must not be rational.
[[Category:Mathematics Workgroup]]
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The square root of two, denoted , is the positive number whose square equals 2. It is approximately 1.4142135623730950488016887242097. It provides a typical example of an irrational number.

In Right Triangles

The square root of two plays an important role in right triangles in that a unit right triangle (where both legs are equal to 1), has a hypotenuse of . Thus, .

Proof of Irrationality

There exists a simple proof by contradiction showing that is irrational:

Suppose is rational. Then there must exist two numbers, , such that and and represent the smallest such integers (i.e., they are mutually prime).

Therefore, and ,

Thus, represents an even number; therefore must also be even. This means that there is an integer such that . Inserting it back into our previous equation, we find that

Through simplification, we find that , and then that, ,

Since is an integer, and therefore also must also be even. However, if and are both even, they share a common factor of 2, making them not mutually prime. And that is a contradiction, so the assumption must be false, and must not be rational.