Lectures related to Geometric Descriptive: Shadows and Perspective

Monge Method: Spatial Geometry Problems and Monge Projections

Explores spatial geometry problem-solving using Monge representation and projections.

Descriptive Geometry: Concepts and Exercises

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

Geometric Projections: Historical Perspectives and Applications

Explores the evolution of projective geometry and its applications in architectural representation.

Dandelin Theorem: Ellipse Construction

Explores ellipse construction using the Dandelin theorem and properties of conics in space.

Geometric Transformations: Meanings and Applications

Explores geometric transformations, invariant properties, and mean relationships in modern geometry.

Geometric Descriptive: Exercises Discussion and Perpendicularity

Covers exercises and perpendicularity in geometric descriptive concepts, emphasizing in-person attendance and practical applications.

True Sizes: Plan Projection Folding, Descriptive Geometry

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

Geometric Projections: Orthogonal and Monge Projections

Covers orthogonal and Monge projections in descriptive geometry, focusing on geometric properties and visualization techniques.

Descriptive Geometry: Introduction to the Option

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

Projections de Monge: Method and Applications

Covers the Monge method for spatial geometry and its applications in creating precise sketches and 2D/3D manipulations.

Descriptive Geometry: Cones and Cylinders

Explores intersections, curves, and perspectives in descriptive geometry of cones and cylinders.

Elliptical Arch Construction

Explores the construction of elliptical arches using a single ellipse arc.

Descriptive Geometry: The Sphere

Explores the properties and sections of a sphere, including symmetry, tangent planes, and circle projections.

Introduction to Projections

Introduces the basics of geometry projections, including isometric and modern perspectives, and their historical context.

Descriptive Geometry

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

Geometric Representation: Introduction to Descriptive Geometry

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

Perspective: Definitions and Image Construction

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

Perspective: Radial Method

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

Geometric Descriptive: Projection of a Square in a Defined Plane

Covers the construction of projections of a square in a defined plane.

Projection in Descriptive Geometry

Covers principles of Descriptive Geometry, focusing on points, lines, planes, intersections, shadows, and geometric problem resolutions.