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Lecture
Geometric Traces and Projections: Planes and Lines
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Related lectures (32)
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Descriptive Geometry: Fundamentals
Covers the basics of Descriptive Geometry, including projection techniques and problem-solving methods.
Projection of Lines in Descriptive Geometry
Explains methods for accurately projecting lines in 3D space using GeoGebra.
Perspective: Definitions and Image Construction
Introduces perspective definitions and image construction methods in descriptive geometry, emphasizing radial projection principles and image construction on planes.
Descriptive Geometry
Introduces Descriptive Geometry concepts, including conservation laws and projection methods.
Geometric Loci: Quadrants and Bisector Planes
Explores quadrants, bisector planes, geometric loci, and Geogebra applications in descriptive geometry.
True Sizes: Folding Method in Descriptive Geometry
Explains the folding method in descriptive geometry to determine true sizes of segments and distances between points.
Introduction to GeoGebra: Quadrants and Bisector Planes
Covers the definition of section ratio and quadrants division in space.
Geometric Projections: Historical Perspectives and Applications
Explores the evolution of projective geometry and its applications in architectural representation.
Geometric Transformations: Meanings and Applications
Explores geometric transformations, invariant properties, and mean relationships in modern geometry.
Projection Orthogonale: Properties and Methods
Explores the properties of orthogonal projection and the Monge method for projecting points in space.
