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Planetary Motion in GeoGebra
Introduction
Inspiration
Objectives
Respective Physical Laws
Numerical approach
Geometric approach
References
Planetary Motion in GeoGebra
Auteur :
Roman Hašek
Table des matières
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
Suivant
University of South Bohemia in České Budějovice
Nouvelles ressources
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apec
Parallelogram Linkage
גיליון אלקטרוני להעלאת נתוני בעיה ויצירת גרף בהתאם
Parallel Line Image Maker
Découvrir des ressources
Base Ten Blocks - Counting from 0 to 99
The Bae
pointlistsexample2
reflective property in the parabola
angle bisector
Schueller Reflection
Découvrir des Thèmes
Multiplication
Pourcentages
Soustraction
Geometrie Fractale
Nombres Rationnels
