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Dandelin spheres
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Related lectures (29)
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Dandelin Theorem: Ellipse Construction
Explores ellipse construction using the Dandelin theorem and properties of conics in space.
Conic Sections: Ellipse, Parabola, Hyperbola
Explores conic sections like ellipse, parabola, and hyperbola, their properties, constructions, and perspectives in 2D and 3D spaces.
Descriptive Geometry: Cones and Cylinders
Covers the geometry of cones and cylinders, including sections of conics and Dandelin's theorem.
Introduction to Conic Sections in Space
Covers the introduction to conic sections in space, focusing on ellipses and their properties.
Projections de Monge: Method and Applications
Covers the Monge method for spatial geometry and its applications in creating precise sketches and 2D/3D manipulations.
Parameterized Surfaces: Definition and Examples
Covers the concept of parameterized surfaces in 3D space with examples like cylinders and spheres.
Geometric Descriptive: Exercises Discussion and Perpendicularity
Covers exercises and perpendicularity in geometric descriptive concepts, emphasizing in-person attendance and practical applications.
Descriptive Geometry: The Sphere
Explores descriptive geometry concepts related to spheres, including sectioning by planes and intersection with lines.
Monge Method: Spatial Geometry Problems and Monge Projections
Explores spatial geometry problem-solving using Monge representation and projections.
Generalized Steiner and Hole Inertia
Explains how to calculate inertia with missing parts using the Steiner theorem.
Closed Surfaces and Integrals
Explains closed surfaces like spheres, cubes, and cones without covers, and their traversal and removal of edges.
Image Charge Method with Spheres
Explores the image charge method with spheres, explaining its application and mathematical equations.
Adding objects and models to the scene
Explains adding geometries and models to a 3D scene, including spheres, circuits, and neuron parts.
Geometric Descriptive: Shadows and Perspective
Explores the basics of Geometric Descriptive, emphasizing shadows and perspective in 2D and 3D.
General Surfaces: Definition and Examples
Introduces general surfaces, explaining parameterizations, regularity, and integrals with examples like cylinder shells and spheres.
True Sizes: Plan Projection Folding, Descriptive Geometry
Explores descriptive geometry principles, including points, lines, planes, and applications to shadow problems using software like GeoGebra.
Mechanical Construction I: Drawing Formats and Graphic Elements
Introduces fundamental principles of mechanical construction, emphasizing drawing formats, graphic elements, and dimensioning techniques.
Small-Angle X-ray Scattering II
Explores Q-regimes, idealized shapes, and scattering curves in small-angle x-ray scattering analysis.
Tangent Vectors: Definition and Applications
Explores the definition and applications of tangent vectors in determining curve directions on surfaces.
Intrinsic Geometry of Regular Surfaces
Explores the intrinsic geometry of regular surfaces and isometric transformations, including spheres and cylinders.
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