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| en:realplane [2026/03/03 16:18] – created frankbrennecke | en:realplane [2026/03/03 16:35] (current) – frankbrennecke |
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| ^Symbol^Graphic^Description^ | ^Symbol^Graphic^Description^ |
| |{{symbol:icon_Functions.png?64x64}}|[[Functions]]|Represents functions of the type y=f(x). In addition, within the framework of functional analysis, the first and second derivatives, the definite integral, zero points, poles and inflection points can be represented.| | |{{symbol:icon_Funktionen.png?64x64}}|[[Functions]]|Represents functions of the type y=f(x). In addition, within the framework of functional analysis, the first and second derivatives, the definite integral, zero points, poles and inflection points can be represented.| |
| |{{symbol:icon_PlaneCurves.png?64x64}}|[[PlaneCurves|Plane curves]]|Represents relations in which the values for x and y depend on two functions f<sub>x</sub>(t) and f<sub>y</sub>(t).| | |{{symbol:icon_EbeneKurven.png?64x64}}|[[PlaneCurves|Plane curves]]|Represents relations in which the values for x and y depend on two functions f<sub>x</sub>(t) and f<sub>y</sub>(t).| |
| |{{symbol:icon_Polarkurven.png?64x64}}|[[Polarkurven]]|Displays the function either as a radius depending on the angle r=f(phi) or as an angle depending on the radius phi =f%%(r)%%.| | |{{symbol:icon_Polarkurven.png?64x64}}|[[Polarkurven|Polar curves]]|Displays the function either as a radius depending on the angle r=f(phi) or as an angle depending on the radius phi =f%%(r)%%.| |
| |{{symbol:icon_function_families.png?64x64}}|[[Function families]]|Displays functions of the type y=f(x,param). The parameter is used to display several curves simultaneously.| | |{{symbol:icon_Funktionenscharen.png?64x64}}|[[Function families]]|Displays functions of the type y=f(x,param). The parameter is used to display several curves simultaneously.| |
| |{{symbol:icon_intersections.png?64x64}}|[[Intersections]]|Determines intersections between the graphs of other functions and is therefore only applicable if at least two graphs are displayed.| | |{{symbol:icon_Schnittpunkte.png?64x64}}|[[Intersections]]|Determines intersections between the graphs of other functions and is therefore only applicable if at least two graphs are displayed.| |
| |{{symbol:icon_LinearAlgebra2D.png?64x64}}|[[LinearAlgebra2D|LinearAlgebra]]|Represents circles and straight lines in normal and parametric form in 2D space.| | |{{symbol:icon_LineareAlgebra2D.png?64x64}}|[[LinearAlgebra2D|LinearAlgebra]]|Represents circles and straight lines in normal and parametric form in 2D space.| |
| |{{symbol:icon_ImplicitCurves.png?64x64}}|[[ImplicitCurves|Implicit curves]]|Plots curves defined in the form of an implicit equation f(x,y)=0.| | |{{symbol:icon_ImpliziteKurven.png?64x64}}|[[ImplicitCurves|Implicit curves]]|Plots curves defined in the form of an implicit equation f(x,y)=0.| |
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| [[graphics_types|Back to overview]] | [[graphic_types|Back to overview]] |
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