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2. Square-free integer - Wikipedia

   en.wikipedia.org/wiki/Square-free_integer

   An integer is square-free if and only if it is equal to its radical. Every positive integer can be represented in a unique way as the product of a powerful number (that is an integer such that is divisible by the square of every prime factor) and a square-free integer, which are coprime.

3. Square-free element - Wikipedia

   en.wikipedia.org/wiki/Square-free_element

   In mathematics, a square-free element is an element r of a unique factorization domain R that is not divisible by a non-trivial square. This means that every s such that s 2 ∣ r {\displaystyle s^{2}\mid r} is a unit of R .

4. Quadratic field - Wikipedia

   en.wikipedia.org/wiki/Quadratic_field

   Every such quadratic field is some () where is a (uniquely defined) square-free integer different from and . If d > 0 {\displaystyle d>0} , the corresponding quadratic field is called a real quadratic field , and, if d < 0 {\displaystyle d<0} , it is called an imaginary quadratic field or a complex quadratic field , corresponding to whether or ...

5. Algebraic number field - Wikipedia

   en.wikipedia.org/wiki/Algebraic_number_field

   More generally, for any square-free integer , the quadratic field is a number field obtained by adjoining the square root of to the field of rational numbers. Arithmetic operations in this field are defined in analogy with the case of Gaussian rational numbers, d = − 1 {\displaystyle d=-1} .

6. Square number - Wikipedia

   en.wikipedia.org/wiki/Square_number

   A non-negative integer is a square number when its square root is again an integer. For example, =, so 9 is a square number. A positive integer that has no square divisors except 1 is called square-free. For a non-negative integer n, the n th square number is n 2, with 0 2 = 0 being the zeroth one. The concept of square can be extended to some ...

7. Quadratic integer - Wikipedia

   en.wikipedia.org/wiki/Quadratic_integer

   The square root of any integer is a quadratic integer, as every integer can be written n = m 2 D, where D is a square-free integer, and its square root is a root of x 2 − m 2 D = 0. The fundamental theorem of arithmetic is not true in many rings of quadratic integers.