Lectures related to Monge Method: Spatial Geometry Problems and Monge Projections

Explores the basics of Geometric Descriptive, emphasizing shadows and perspective in 2D and 3D.

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

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

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

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

Covers the basics of mechanical construction, focusing on views correspondence, pivot lines usage, and axonometric projections.

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

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

Introduces mechanical design principles, focusing on projections, cuts, sections, and dimensioning techniques for technical drawings.

Covers the basics of technical drawing, including projections, standardized norms, and challenges in incomplete drawings.

Introduces the Descriptive Geometry course, emphasizing visualization techniques and their applications in solving spatial problems.

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

Introduces the basics of mechanical construction, technical drawings, and standardization in technical communication.

Explores the principles of perspective drawing, focusing on vanishing points and different perspective types.

Covers views correspondence, axonometric projections, and intersections in mechanical drawings.

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

Explains the folding method in descriptive geometry to determine true sizes of segments and distances between points.

Introduces the Mechanical Design course, covering its structure, objectives, and evaluation methods.

Covers topics such as parallel projection, Monge's method, true sizes, intersections, shadows, and perspectives.

Examines geometric singularities in architectural design through the analysis of spatial intersections.