Difference between revisions of "ParametricDerivative Command"
From GeoGebra Manual
m |
m (Text replace - ";(.*)\[(.*)\]" to ";$1($2)") |
||
Line 1: | Line 1: | ||
<noinclude>{{Manual Page|version=5.0}}[[Category:Manual (official)|{{PAGENAME}}]]</noinclude> | <noinclude>{{Manual Page|version=5.0}}[[Category:Manual (official)|{{PAGENAME}}]]</noinclude> | ||
{{command|function}} | {{command|function}} | ||
− | ;ParametricDerivative | + | ;ParametricDerivative( <Curve> ) |
:Returns a new [[Curves|parametric curve]] given by ''<math> \left( x(t), \frac{y'(t)}{ x'(t)} \right) </math>''. | :Returns a new [[Curves|parametric curve]] given by ''<math> \left( x(t), \frac{y'(t)}{ x'(t)} \right) </math>''. | ||
:{{example|1=<div><code>ParametricDerivative[Curve[2t, t², t, 0, 10]]</code> returns the parametric curve ''(x(t) = 2t, y(t) = t)''. The curve given as argument to the command is the function ''f(x) = <math> \frac{x²}{4}</math>'', and the result is the derivative of that function: ''f'(x) = <math> \frac{x}{2}</math>.</div>}} | :{{example|1=<div><code>ParametricDerivative[Curve[2t, t², t, 0, 10]]</code> returns the parametric curve ''(x(t) = 2t, y(t) = t)''. The curve given as argument to the command is the function ''f(x) = <math> \frac{x²}{4}</math>'', and the result is the derivative of that function: ''f'(x) = <math> \frac{x}{2}</math>.</div>}} |
Revision as of 17:17, 7 October 2017
- ParametricDerivative( <Curve> )
- Returns a new parametric curve given by \left( x(t), \frac{y'(t)}{ x'(t)} \right) .
- Example:
ParametricDerivative[Curve[2t, t², t, 0, 10]]
returns the parametric curve (x(t) = 2t, y(t) = t). The curve given as argument to the command is the function f(x) = \frac{x²}{4}, and the result is the derivative of that function: f'(x) = \frac{x}{2}.