Difference between revisions of "OsculatingCircle Command"
From GeoGebra Manual
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:{{example|1=<code><nowiki>OsculatingCircle[(1, 0), Curve[cos(t), sin(2t), t, 0, 2π]]</nowiki></code> yields ''x² + y² + 6x = 7''.}} | :{{example|1=<code><nowiki>OsculatingCircle[(1, 0), Curve[cos(t), sin(2t), t, 0, 2π]]</nowiki></code> yields ''x² + y² + 6x = 7''.}} | ||
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;OsculatingCircle[ <Point>, <Object> ] | ;OsculatingCircle[ <Point>, <Object> ] | ||
: Yields the osculating circle of the object (function, curve, conic) in the given point. | : Yields the osculating circle of the object (function, curve, conic) in the given point. |
Revision as of 11:00, 29 July 2015
- OsculatingCircle[ <Point>, <Function> ]
- Yields the osculating circle of the function in the given point.
- Example:
OsculatingCircle[(0, 0), x^2]
yields x² + y² - y = 0.
- OsculatingCircle[ <Point>, <Curve> ]
- Yields the osculating circle of the curve in the given point.
- Example:
OsculatingCircle[(1, 0), Curve[cos(t), sin(2t), t, 0, 2π]]
yields x² + y² + 6x = 7.
- OsculatingCircle[ <Point>, <Object> ]
- Yields the osculating circle of the object (function, curve, conic) in the given point.
- Examples:
OsculatingCircle[(0, 0), x^2]
yields x² + y² - y = 0OsculatingCircle[(1, 0), Curve[cos(t), sin(2t), t, 0, 2π]]
yields x² + y² + 6x = 7OsculatingCircle[(-1, 0), Conic[{1, 1, 1, 2, 2, 3}]]
yields x² + y² + 2x + 1y = -1
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