Lectures related to Configurations of 2 Lines in Space

Covers quantum chemistry concepts related to angular momentum and precise measurements.

Descriptive Geometry: Concepts and Exercises

Covers fundamental concepts and exercises in Descriptive Geometry, focusing on spatial problem-solving techniques and relative line positions.

Geometric Descriptive: Straight Lines and Line Projections

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

Linear Algebra: Projection and Rotation

Covers projection, rotation, white Gaussian noise, and waveform observation in linear algebra.

Intersection of Line and Plane: Geometric Descriptive

Explains the intersection of a line and a plane using auxiliary planes and projectants.

Isometries & Orientation in Modern Geometry

Explores true angle magnitude, reflections, isometries, and symmetries in modern geometry, with practical CAD applications.

Projection of Lines in Descriptive Geometry

Explains methods for accurately projecting lines in 3D space using GeoGebra.

Descriptive Geometry: Introduction to the Option

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

Inclined Plane Physics: Forces and Friction

Explores forces and friction on an inclined plane without friction, analyzing binding forces and system dynamics.

Local Homeomorphisms and Coverings

Covers the concepts of local homeomorphisms and coverings in manifolds, emphasizing the conditions under which a map is considered a local homeomorphism or a covering.

Coordinates and Projection Systems

Covers observation scales, coordinate systems, geoid, and projection systems in GIS.

True Sizes: Plan Projection Folding, Descriptive Geometry

Explores descriptive geometry principles, including points, lines, planes, and applications to shadow problems using software like GeoGebra.

Understanding Vibrations

Explores vibrations, their properties, and how any map can be transformed into a vibration through factorization.

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Descriptive Geometry: Fundamentals

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

Satellite Selection and System Activation

Covers satellite selection, system activation, and sky charts for navigation systems.

PCA: Derivation and Optimization

Covers the derivation of PCA projection, error minimization, and eigenvector optimization.

Perspective: Radial Method

Covers the concept of perspective in geometry and the radial method of creating images using central projection.

Distributions and Derivatives

Covers distributions, derivatives, convergence, and continuity criteria in function spaces.

Descriptive Geometry: The Sphere

Covers the missing projection of points on a sphere using principal planes.