Lectures related to Projection of Lines 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.

Analytical Study of Space

Explores landmarks, coordinates, vectors, coplanarity, Cartesian equations, and geometric rules in space.

Affinity and Ellipses in Descriptive Geometry

Explores affinity in geometry, segment construction, ellipses, and circle projections.

Axonometry: Core Concepts

Covers the core concepts of axonometry, focusing on projection and linear dependence of vectors.

Descriptive Geometry

Introduces Descriptive Geometry concepts, including conservation laws and projection methods.

Geometric Descriptive: Straight Lines and Line Projections

Explores straight lines, line purity, and line projections in geometric descriptive.

Descriptive Geometry: Introduction to the Option

Introduces the option 'Descriptive Geometry' focusing on the projection of space onto a plane and problem-solving techniques.

Vectorworks Educational Version

Introduces Vectorworks Educational Version for architectural drawings, covering tools, layers, and annotations.

Geometric Representation: Introduction to Descriptive Geometry

Covers the basics of descriptive geometry and the method of Monge for spatial representation.

Introduction to GeoGebra: Quadrants and Bisector Planes

Covers the definition of section ratio and quadrants division in space.

Descriptive Geometry: Fundamentals

Covers the basics of Descriptive Geometry, including projection techniques and problem-solving methods.

Analytical Study of Space

Explores the analytical study of space, covering relative positions, angles, and properties of lines and planes.

Perspective: Definitions and Image Construction

Introduces perspective definitions and image construction methods in descriptive geometry, emphasizing radial projection principles and image construction on planes.

True Magnitude of Segments: Ellipses and Affinities

Explores the construction of ellipses and affinities to determine true sizes of segments in descriptive geometry.

Projection Orthogonale: Properties and Methods

Explores the properties of orthogonal projection and the Monge method for projecting points in space.

Advanced Physics I: Definitions and Motion

Covers advanced physics topics such as definitions, rectilinear motion, vectors, and motion in three dimensions.

Slope Lines and Principal Lines in Descriptive Geometry

Explores slope lines, principal lines, and their geometric relationships in descriptive geometry.

Mechanical Design Principles: Technical Drawing and Projections

Introduces mechanical design principles, focusing on technical drawing and projection methods essential for accurate representation in engineering.

Linear Algebra: Matrices and Linear Applications

Covers matrices, linear applications, vector spaces, and bijective functions.

Vectors: Definitions and Operations

Introduces vector definitions, displacement, addition, and applications in geometry.