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Google Classroom
GeoGebra
GeoGebra Classroom
Kapitel
Planetary Motion in GeoGebra
Introduction
Inspiration
Objectives
Respective Physical Laws
Numerical approach
Geometric approach
References
Planetary Motion in GeoGebra
Autor:
Roman Hašek
Inhaltsverzeichnis
Introduction
University of South Bohemia in České Budějovice
Annotation
Inspiration
Richard Feynman
Feynman's lectures on physics
Feynman's lost lecture
Objectives
Planetary motion in GeoGebra
Educational benefits
Respective Physical Laws
Kepler's laws of planetary motion
Newton's laws of motion and gravity
Numerical approach
Numerical analysis of planetary motion
Geometric approach
Second Kepler's law: The law of equal areas
First Kepler's law: The law of ellipses
Feynman's proof of the law of ellipses
References
References
Weiter
University of South Bohemia in České Budějovice
Neue Materialien
Parallel Lines and Angles: Thinking Classroom Exploration
Assistants (custom GPTs or Gemini Gems) for Math
Cartesian Notation of a Vector
Angle Bisector: Quick Warm Up Questions
seo tool
Entdecke Materialien
Parameters of y=mx+b
MathART
Angle Scooter
Geogebra Task
TG Geometrical Meaning of product of irrational numbers
Entdecke weitere Themen
Treppenfunktionen
Konstruktionen
Symmetrie
Fläche
Schnittmenge
