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0 Can Not Be Quotient

Mathematical result of division

12 apples divided into 4 groups of 3 each.

The quotient of 12 apples by 3 apples is 4.

In arithmetic, a quotient (from Latin: quotiens "how many times", pronounced ) is a quantity produced by the division of two numbers.[1] The quotient has widespread use throughout mathematics, and is commonly referred to as the integer part of a division (in the case of Euclidean division),[2] or as a fraction or a ratio (in the case of proper division). For example, when dividing 20 (the dividend) by 3 (the divisor), the quotient is "6 with a remainder of 2" in the Euclidean division sense, and 6 2 3 {\displaystyle 6{\tfrac {2}{3}}} in the proper division sense. In the second sense, a quotient is simply the ratio of a dividend to its divisor.

Notation [edit]

The quotient is most frequently encountered as two numbers, or two variables, divided by a horizontal line. The words "dividend" and "divisor" refer to each individual part, while the word "quotient" refers to the whole.

1 2 dividend or numerator divisor or denominator } quotient {\displaystyle {\dfrac {1}{2}}\quad {\begin{aligned}&\leftarrow {\text{dividend or numerator}}\\&\leftarrow {\text{divisor or denominator}}\end{aligned}}{\Biggr \}}\leftarrow {\text{quotient}}}

Integer part definition [edit]

The quotient is also less commonly defined as the greatest whole number of times a divisor may be subtracted from a dividend—before making the remainder negative. For example, the divisor 3 may be subtracted up to 6 times from the dividend 20, before the remainder becomes negative:

20 − 3 − 3 − 3 − 3 − 3 − 3 ≥ 0,

while

20 − 3 − 3 − 3 − 3 − 3 − 3 − 3 < 0.

In this sense, a quotient is the integer part of the ratio of two numbers.[3]

Quotient of two integers [edit]

A rational number can be defined as the quotient of two integers (as long as the denominator is non-zero).

A more detailed definition goes as follows:[4]

A real number r is rational, if and only if it can be expressed as a quotient of two integers with a nonzero denominator. A real number that is not rational is irrational.

Or more formally:

Given a real number r, r is rational if and only if there exists integers a and b such that r = a b {\displaystyle r={\tfrac {a}{b}}} and b 0 {\displaystyle b\neq 0} .

The existence of irrational numbers—numbers that are not a quotient of two integers—was first discovered in geometry, in such things as the ratio of the diagonal to the side in a square.[5]

More general quotients [edit]

Outside of arithmetic, many branches of mathematics have borrowed the word "quotient" to describe structures built by breaking larger structures into pieces. Given a set with an equivalence relation defined on it, a "quotient set" may be created which contains those equivalence classes as elements. A quotient group may be formed by breaking a group into a number of similar cosets, while a quotient space may be formed in a similar process by breaking a vector space into a number of similar linear subspaces.

See also [edit]

  • Product (mathematics)
  • Quotient category
  • Quotient graph
  • Quotient in integer division
  • Quotient module
  • Quotient object
  • Quotient of a formal language, also left and right quotient
  • Quotient ring
  • Quotient set
  • Quotient space (topology)
  • Quotient type
  • Quotition and partition

References [edit]

  1. ^ "Quotient". Dictionary.com.
  2. ^ Weisstein, Eric W. "Integer Division". mathworld.wolfram.com . Retrieved 2020-08-27 .
  3. ^ Weisstein, Eric W. "Quotient". MathWorld.
  4. ^ Epp, Susanna S. (2011-01-01). Discrete mathematics with applications. Brooks/Cole. p. 163. ISBN9780495391326. OCLC 970542319.
  5. ^ "Irrationality of the square root of 2". www.math.utah.edu . Retrieved 2020-08-27 .

0 Can Not Be Quotient

Source: https://en.wikipedia.org/wiki/Quotient