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Technically, it should be called the principal square root of 2, to distinguish it from the negative number with the same property. Geometrically, the square root of 2 is the length of a diagonal across a square with sides of one unit of length; this follows from the Pythagorean theorem. It was probably the first number known to be irrational. [1]
The square root of 2 was likely the first number proved irrational. [27] The golden ratio is another famous quadratic irrational number. The square roots of all natural numbers that are not perfect squares are irrational and a proof may be found in quadratic irrationals.
Since taking the square root is the same as raising to the power 1 / 2 , the following is also an algebraic expression: 1 − x 2 1 + x 2 {\displaystyle {\sqrt {\frac {1-x^{2}}{1+x^{2}}}}} An algebraic equation is an equation involving polynomials , for which algebraic expressions may be solutions .
The square root of 2 is irrational, and 3 is rational. is also irrational: if it were equal to , then, by the properties of logarithms, 9 n would be equal to 2 m, but the former is odd, and the latter is even. A more substantial example is the graph minor theorem.
After all the square root of minus 1 is not a rational number. NadVolum 23:30, 1 July 2024 (UTC) Adding a proof that the square root of two is a real number seems excessive for the intended audience of this article. Maybe you could include or link one from a footnote though.
The square root of 2 was the first such number to be proved irrational. Theodorus of Cyrene proved the irrationality of the square roots of non-square natural numbers up to 17, but stopped there, probably because the algebra he used could not be applied to the square root of numbers greater than 17.
In The Irrational‘s Season 1 finale, Alec & Co. figured out who was behind the 2002 church bombing — did your top suspect match up? As the hour progressed, it looked more and more like Sen ...
In the case of two nested square roots, the following theorem completely solves the problem of denesting. [2]If a and c are rational numbers and c is not the square of a rational number, there are two rational numbers x and y such that + = if and only if is the square of a rational number d.