Dimension | Fractals | Dimension theory | Measures (measure theory) | Measure theory | Geometry | Analytic geometry
The Minkowski content (named after Hermann Minkowski), or the boundary measure, of a set is a basic concept that uses concepts from geometry and measure theory to generalize the notions of length of a smooth curve in the plane, and area of a smooth surface in space, to arbitrary measurable sets. It is typically applied to fractal boundaries of domains in the Euclidean space, but it can also be used in the context of general metric measure spaces. It is related to, although different from, the Hausdorff measure. (Wikipedia).
Minkowski Diagrams | Special Relativity
▶ Topics ◀ Minkowski Diagrams, Event, World Line, Special Relativity ▶ Social Media ◀ [Instagram] @prettymuchvideo ▶ Music ◀ TheFatRat - Fly Away feat. Anjulie https://open.spotify.com/track/1DfFHyrenAJbqsLcpRiOD9 If you want to help us get rid of ads on YouTube, you can support us on P
From playlist Minkowski Diagrams
This is a basic introduction to Minkowski's inequality, which has many applications in mathematics. A simple case in the Euclidean space R^n is discussed with a proof provided.
From playlist Mathematical analysis and applications
Minkowski sums, mixed faces and combinatorial isoperimetry - Adiparsito
Computer Science/Discrete Mathematics Seminar II Topic: Minkowski sums, mixed faces and combinatorial isoperimetry Speaker: Karim Adiprasito Date: Tuesday, February 23 I want to sketch some algebraic and geometric tools to solve a variety of extremal problems surrounding Minkowski sums of
From playlist Mathematics
A simple proof of a reverse Minkowski inequality - Noah Stephens-Davidowitz
Computer Science/Discrete Mathematics Seminar II Topic: A simple proof of a reverse Minkowski inequality Speaker: Noah Stephens-Davidowitz Affiliation: Visitor, School of Mathematics Date: April 17, 2018 For more videos, please visit http://video.ias.edu
From playlist Mathematics
Lorentz Transformations | Special Relativity Ch. 3
Go to http://brilliant.org/MinutePhysics for 20% off a premium subscription to Brilliant! Mark Rober's youtube channel: https://www.youtube.com/markrober The previous videos in this series: Chapter 1: Why Relativity is Hard https://www.youtube.com/watch?v=1rLWVZVWfdY& Chapter 2: Spacetim
From playlist MinutePhysics
Minkowski Metric | Special Relativity
▶ Topics ◀ Euclidean/Minkowski Metric, Spacelike, Timelike, Lightlike ▶ Social Media ◀ [Instagram] @prettymuchvideo ▶ Music ◀ TheFatRat - Fly Away feat. Anjulie https://open.spotify.com/track/1DfFHyrenAJbqsLcpRiOD9 If you want to help us get rid of ads on YouTube, you can support us on
From playlist Minkowski Diagrams
Length Contraction and Time Dilation | Special Relativity Ch. 5
Go to http://brilliant.org/MinutePhysics for 20% off a premium subscription to Brilliant! Mark Rober's youtube channel: https://www.youtube.com/markrober This video is chapter 5 in my series on special relativity, and it covers how things that are moving (that is, moving relative to an i
From playlist Intro to Special Relativity Course
Moving Observers | Minkowski Diagrams | Special Relativity
▶ Topics ◀ Moving Observers, Tilted Axes ▶ Social Media ◀ [Instagram] @prettymuchvideo ▶ Music ◀ TheFatRat - Fly Away feat. Anjulie https://open.spotify.com/track/1DfFHyrenAJbqsLcpRiOD9 If you want to help us get rid of ads on YouTube, you can support us on Patreon! https://www.patreon
From playlist Minkowski Diagrams
Eugenia Saorin-Gomez - Inner parallel bodies & the Isoperimetric Quotient
Recorded 10 February 2022. Eugenia Saorin-Gomez of the Universität Bremen presents "Inner parallel bodies & the Isoperimetric Quotient" at IPAM's Calculus of Variations in Probability and Geometry Workshop. Abstract: The so-called Minkowski difference of convex bodies (compact and convex s
From playlist Workshop: Calculus of Variations in Probability and Geometry
Generation and imprints of primordial gravitational waves (Lecture 1) by Daniel Figueroa
PROGRAM PHYSICS OF THE EARLY UNIVERSE (HYBRID) ORGANIZERS: Robert Brandenberger (McGill University, Canada), Jerome Martin (IAP, France), Subodh Patil (Leiden University, Netherlands) and L. Sriramkumar (IIT - Madras, India) DATE: 03 January 2022 to 12 January 2022 VENUE: Online and Ra
From playlist Physics of the Early Universe - 2022
Embeddedness of timelike maximal surfaces in (1+2) Minkowski Space by Edmund Adam Paxton
Discussion Meeting Discussion meeting on zero mean curvature surfaces (ONLINE) Organizers: C. S. Aravinda and Rukmini Dey Date: 07 July 2020 to 15 July 2020 Venue: Online Due to the ongoing COVID-19 pandemic, the original program has been canceled. However, the meeting will be co
From playlist Discussion Meeting on Zero Mean Curvature Surfaces (Online)
Thinking in Space Time | The Great Courses Plus
Albert Einstein was so certain of his theory of relativity that he told the scientific community, without batting an eyelash, that Newton was wrong and his theories needed revision. He had good cause for his confidence, too—science has spent a century working on relativity. Expand your min
From playlist Math and Statistics
Neutron Stars and Black Holes (Lecture - 7: Einstein’s General Theory) by G Srinivasan
SUMMER COURSES NEUTRON STARS AND BLACK HOLES SPEAKER: G Srinivasan (Raman Research Institute - Retired) DATE: 15 May 2019 to 28 June 2019 VENUE: Emmy Noether Seminar Room, ICTS Bangalore The theme of the course will be neutron stars and black holes, with emphasis on neutron stars i
From playlist Summer Course 2019: Neutron Stars and Black Holes
Code - Seminar 28 - Ince on Robust and Fast Collision Detection in Games
Ince (https://twitter.com/Ince_FS) presents his new algorithm for fast and robust collision detection, using Minkowski differences. The webpage for this seminar is https://metauni.org/code/ You can join this seminar from anywhere, on any device, at https://www.metauni.org. This video wa
From playlist Code seminar
How Einstein discovered The General Theory of Relativity (Lecture - 01) by Professor G Srinivasan
Professor G Srinivasan Visiting Professor, Indian Institute for Astrophysics This summer course aims to give a broad perspective on gravity, astrophysics and cosmology and is suitable for advanced undergraduates and graduate students in physics and astronomy. Professor G Srinivasan is a s
From playlist Summer Course 2017: A Journey Through The Universe
Introduction to special relativity and Minkowski spacetime diagrams | Khan Academy
Including multiple observers in the "most obvious" way led to some problems. Let's see how we can start to solve those problems by introducing (what we'll later call) Minkowski spacetime diagrams. Watch the next lesson: https://www.khanacademy.org/science/physics/special-relativity/minkow
From playlist Special relativity | Physics | Khan Academy
Measuring time in meters in Minkowski spacetime | Physics | Khan Academy
As counterintuitive as it might sound, it will become extremely convenient to use the same units for space and time. Happily, we can do that just by multiplying the time axis by c, the speed of light. Here's how. Watch the next lesson: https://www.khanacademy.org/science/physics/special-r
From playlist Special relativity | Physics | Khan Academy
Spacetime Diagrams | Special Relativity Ch. 2
Go to http://brilliant.org/MinutePhysicsSpecialRelativity to learn more about spacetime diagrams and for 20% off a premium subscription to Brilliant. This video is chapter 2 in my series on special relativity, and it covers spacetime diagrams, rotational and translational symmetry of both
From playlist MinutePhysics
Anna Sakovich: On the mass of asymptotically hyperbolic manifolds and initial data set
HYBRID EVENT A complete Riemannian manifold is called asymptotically hyperbolic if its ends are modeled on neighborhoods of infinity in hyperbolic space. There is a notion of mass for this class of manifolds defined as a coordinate invariant computed in a fixed asymptotically hyperbolic en
From playlist Analysis and its Applications