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Related lectures (31)
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Descriptive Geometry
Introduces Descriptive Geometry concepts, including conservation laws and projection methods.
Mechanical Construction I: Views and Projections
Covers the basics of mechanical construction, focusing on views correspondence, pivot lines usage, and axonometric projections.
Orthogonal Projection: Vector Decomposition
Explains orthogonal projection and vector decomposition with examples in particle trajectory analysis.
Mechanical Construction I: Views Correspondence and Axonometric Projections
Covers views correspondence, axonometric projections, and intersections in mechanical drawings.
Mechanical Design Principles: Technical Drawing and Projections
Introduces mechanical design principles, focusing on technical drawing and projection methods essential for accurate representation in engineering.
Projection parallèle
Covers topics such as parallel projection, Monge's method, true sizes, intersections, shadows, and perspectives.
Axonometry: Image of Points and True Magnitude of Segments
Explains axonometry, focusing on image of points and true magnitude of segments in 3D space.
Projections: Orthographic and Perspective
Explores the transformation pipeline from 3D to 2D, covering orthographic and perspective projections.
Perspective: Definitions and Image Construction
Introduces perspective definitions and image construction methods in descriptive geometry, emphasizing radial projection principles and image construction on planes.
Shape from Texture
Explores recovering surface orientation from image texture under different projections and the use of deep learning for normal prediction.
Orthogonality and Projection
Covers orthogonality, scalar products, orthogonal bases, and vector projection in detail.
Projection of Lines in Descriptive Geometry
Explains methods for accurately projecting lines in 3D space using GeoGebra.
Axonometry: Core Concepts
Covers the core concepts of axonometry, focusing on projection and linear dependence of vectors.
Orthogonal Projection on Straight Line
Explores orthogonal projection on straight lines in analytic geometry, focusing on projection matrices and symmetrical properties.
True Sizes: Folding Method in Descriptive Geometry
Explains the folding method in descriptive geometry to determine true sizes of segments and distances between points.
Physics 1: Harmonic Oscillator and Spherical Coordinates
Explores harmonic oscillators, pendulum movement, and spherical coordinates in physics.
True Magnitude of Segments: Ellipses and Affinities
Explores the construction of ellipses and affinities to determine true sizes of segments in descriptive geometry.
Orthogonal Complement and Projection Theorems
Explores orthogonal complement and projection theorems in vector spaces.
Orthogonal Projections and Reflections
Covers the analytical expression of orthogonal projections and reflections in 2D space.
Technical Drawing: Fundamentals and Applications
Covers the basics of technical drawing, including projections, standardized norms, and challenges in incomplete drawings.
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