Curves
GeoGebra supports the following types of curves:
Parametric curves
Parametric curves of the form a(t) = (f(t), g(t)) where t is real parameter within a certain range can be created:
- using the Curve Command or
- by typing their expression directly in the input bar, e.g.
(t^2,t^3).
Parametric curves can be used as arguments in the following commands: Tangent, Point, Intersect, Derivative, Length, Curvature, CurvatureVector and OsculatingCircle.
- Parametric curves can be used with pre-defined functions and arithmetic operations. For example, input
c(3)returns the point at parameter position 3 on curve c. - You can also place a point on a curve using tool
Point or command Point. Since the endpoints a and b are dynamic you can use slider variables as well (see tool 
Slider).
Creating a parametric curve through some given points is not possible. You can however try e.g. FitPoly Command to get a function going through these points.
Polar curves
In order to draw a curve defined using polar coordinates, it is possible to use one of the following (equivalent) syntaxes:
ρ=sin(2 θ), or sin(2 θ), or f(t)=(sin(2*t); t), or (sin(2*t); t), or f(t)=(sin(2*t); t), 0< t < pi, or (sin(2*t); t), 0 < t < pi, or Curve[(sin(2*t); t), t, 0, 2pi].
Implicit curves
Implicit curves are polynomials in variables x and y. The can be entered directly using the Input Bar.
The ImplicitCurve command generates an implicit curve through a list of points.
x^4 + y^3 = 2xy
