Difference between revisions of "Fractional part"

Revision as of 12:44, 29 June 2006

The fractional part of a real number $x$ , usually denoted $\{x\}$ , is equvalent to removing the integer part of $x$ . Thus $\{x\} = x - [x]$ , where $[x]$ denotes the floor function. For positive numbers, this is equivalent to taking "everything after the decimal point," but this is not true in general for negative numbers. For example,

$\{3.14\} = 0.14$

$\{5\} = 0$

$\{-3.2\} = 0.8$

The fractional part function has the real numbers as its domain and the interval $[0, 1)$ as its range.

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-The '''fractional part''' of a real number <math>x</math>, usually denoted <math>\{x\}</math>, is equvalent to removing the integer part of <math>x</math>.  Thus <math>\{x\} = x - [x]</math>, where <math>[x]</math> denotes the [[floor function]].  For [[positive number]]s, this is equivalent to taking "everything after the decimal point," but this is ''not true'' for [[negative number]]s.  For example,
+The '''fractional part''' of a real number <math>x</math>, usually denoted <math>\{x\}</math>, is equvalent to removing the integer part of <math>x</math>.  Thus <math>\{x\} = x - [x]</math>, where <math>[x]</math> denotes the [[floor function]].  For [[positive number]]s, this is equivalent to taking "everything after the decimal point," but this is ''not true'' in general for [[negative number]]s.  For example,
 * <math>\{3.14\} = 0.14</math>
@@ Line 8: / Line 8: @@
 The fractional part function has the [[real number]]s as its [[domain]] and the [[interval]] <math>[0, 1)</math> as its [[range]].
+==See Also==
+* [[Floor function]]
+* [[Ceiling function]]

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Difference between revisions of "Fractional part"

Revision as of 12:44, 29 June 2006

See Also