Difference between revisions of "Numerator Command"
From GeoGebra Manual
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:{{example|1=<div><code><nowiki>Numerator[(3x² + 1) / (2x - 1)]</nowiki></code> yields ''f(x) = 3x² + 1''.</div>}} | :{{example|1=<div><code><nowiki>Numerator[(3x² + 1) / (2x - 1)]</nowiki></code> yields ''f(x) = 3x² + 1''.</div>}} | ||
;Numerator[ <Number> ] | ;Numerator[ <Number> ] | ||
− | :For a rational number returns | + | :For a rational number returns its numerator. It uses a numerical method, which limits this command to numbers with small denominator. For irrational input the numerator of a its [[ContinuedFraction Command|continued fraction]] is returned. |
{{note|1=See also [[Denominator Command]] and [[FractionText Command]].}} | {{note|1=See also [[Denominator Command]] and [[FractionText Command]].}} | ||
Revision as of 22:50, 27 December 2015
- Numerator[ <Function> ]
- Returns the numerator of the function.
- Example:
Numerator[(3x² + 1) / (2x - 1)]
yields f(x) = 3x² + 1.
- Numerator[ <Number> ]
- For a rational number returns its numerator. It uses a numerical method, which limits this command to numbers with small denominator. For irrational input the numerator of a its continued fraction is returned.
Note: See also Denominator Command and FractionText Command.
CAS Syntax
- Numerator[ <Expression> ]
- Returns the numerator of a rational number or expression.
- Examples:
Numerator[2/3 + 1/15]
yields 11.- If variables a, b and c haven't been previously defined in GeoGebra, then
Numerator[a/b]
yields a andNumerator[Simplify[a + b/c]]
yields a c + b