Difference between revisions of "Curve Command"
From GeoGebra Manual
Noel Lambert (talk | contribs) (example in 3d need 3 expressions) |
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{{betamanual|version=5.0| | {{betamanual|version=5.0| | ||
;Curve[ <Expression a> , <Expression b> , <Expression c> , <Parameter Variable> , <Start Value> , <End Value> ] | ;Curve[ <Expression a> , <Expression b> , <Expression c> , <Parameter Variable> , <Start Value> , <End Value> ] | ||
− | : Yields the | + | : Yields the 3D Cartesian parametric curve for the given ''x''-expression ''a'', ''y''-expression ''b'' and ''z''-expression ''c'' (using parameter variable) within the given interval [''Start Value'', ''End Value'']. |
− | :{{Example|1=<code><nowiki>Curve[cos(t), sin(t),t, t, 0, 10π]</nowiki></code> creates a | + | :{{Example|1=<code><nowiki>Curve[cos(t), sin(t), t, t, 0, 10π]</nowiki></code> creates a 3D spiral.}} |
}} | }} |
Revision as of 09:35, 20 May 2013
- Curve[ <Expression a>, <Expression b>, <Parameter Variable>, <Start Value>, <End Value> ]
- Yields the Cartesian parametric curve for the given x-expression a and y-expression b (using parameter variable) within the given interval [Start Value, End Value].
- Example:
Curve[2 cos(t), 2 sin(t), t, 0, 2π]
creates a circle with radius 2 around the origin of the coordinate system.
- Note:
- End Value must be greater than or equal to Start Value and both must be finite.
- x is not allowed as a parameter variable.
Note: See Curves for details, also see the Derivative Command and the Parametric Derivative Command.
Following text is about a feature that is supported only in GeoGebra 5.0.
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