Example of Rational Canonical Form 3
Matrix Theory: We note two formulations of Rational Canonical Form. A recipe is given for combining and decomposing companion matrices using cyclic vectors.
From playlist Matrix Theory
Linear Programming, Lecture 9. Artificial Variables;
Sept 20, 2016. Penn State University.
From playlist Math484, Linear Programming, fall 2016
Writing Vectors in Different Coordinate Systems
Description: Coordinate systems as we have conventionally thought of them are based on the standard basis vectors. But if we have some other basis, we can define a sensible notion of a coordinate system as well. Learning Objectives: 1) Write a vector in a specified basis into the standar
From playlist Older Linear Algebra Videos
Rewriting a Linear System using Matrix Notation
Learning Objectives: 1) Rewrite a linear system using matrix notation 2) Identify the Coefficient Matrix, Constant Matrix, and Augmented Matrix This video is part of a course taught at the University of Cincinnati.
From playlist Linear Algebra (Full Course)
F[x]-Module Derivation of Rational and Jordan Canonical Forms
Similar matrices isomorphism proof: https://youtu.be/-ligAAxFM8Y Every module is a direct sum of cyclic modules: https://youtu.be/gWIRI43h0ic Intro to F[x]-modules: https://youtu.be/H44q_Urmts0 The rational canonical form and Jordan normal form of a matrix are very important tools in li
From playlist Ring & Module Theory
Coordinate Systems From Non-Standard Bases | Definitions + Visualization
We've all used the standard coordinate system where (x,y) means x to the right and y up. However, for any subspace and a basis of that subspace, we can define a coordinate system. The same vector can thus be written in multiple coordinate systems. We describe what exactly we mean by this,
From playlist Linear Algebra (Full Course)
Vector and matrix forms for systems of linear equations | Linear Algebra MATH1141 | N J Wildberger
A system of linear equations may also be viewed in vector form, as an attempt to write one vector as a linear combination of other vectors. Or it more alternatively be viewed in matrix form. We discuss the matrix of coefficients, the vector of variables and the vector of constants. Puttin
From playlist Higher Linear Algebra
Wolfram Physics I: Basic Formalism, Causal Invariance and Special Relativity
Find more information about the summer school here: https://education.wolfram.com/summer/school Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcement post: http://wolfr.am/physics-announcement Find the tools to build a universe: https:
From playlist Wolfram Summer Programs
2 Construction of a Matrix-YouTube sharing.mov
This video shows you how a matrix is constructed from a set of linear equations. It helps you understand where the various elements in a matrix comes from.
From playlist Linear Algebra
Linear Programming, Lecture 5.Canonical form; basic feasible solution; geometric intepretation.
Sept 6, 2016. Penn State University.
From playlist Math484, Linear Programming, fall 2016
Transfer Function to State Space
In this video we show how to transform a transfer function to an equivalent state space representation. We will derive various transformations such as controllable canonical form, modal canonical form, and controller canonical form. We will apply this to an example and show how to use Ma
From playlist Control Theory
Nijenhuis geometry for ECRs: Pre-recorded Lecture 2 Part A
Pre-recorded Lecture 2 Part A: Nijenhuis geometry for ECRs Date: 9 February 2022 Lecture slides: https://mathematical-research-institute.sydney.edu.au/wp-content/uploads/2022/02/Prerecorded_Lecture2.pdf ---------------------------------------------------------------------------------------
From playlist MATRIX-SMRI Symposium: Nijenhuis Geometry and integrable systems
Live CEOing Ep 654: Language Design in Wolfram Language [Multicomputation]
In this episode of Live CEOing, Stephen Wolfram discusses upcoming improvements and features to the Wolfram Language. If you'd like to contribute to the discussion in future episodes, you can participate through this YouTube channel or through the official Twitch channel of Stephen Wolfram
From playlist Behind the Scenes in Real-Life Software Design
Let's Learn Physics: A Surprise to Be Sure, but a Welcome One
In this stream, we will look at how to incorporate more general "canonical transformations" into our Hamiltonian framework. Along the way, we will see some very deep relations between transformations, symmetries, and conservation, as well as some other interesting relations between paramet
From playlist Let's Learn (Classical) Physics: ZAP Physics Livestreams
Analytical approaches on thermalization (Lecture 2) by Peter Reimann
PROGRAM THERMALIZATION, MANY BODY LOCALIZATION AND HYDRODYNAMICS ORGANIZERS: Dmitry Abanin, Abhishek Dhar, François Huveneers, Takahiro Sagawa, Keiji Saito, Herbert Spohn and Hal Tasaki DATE : 11 November 2019 to 29 November 2019 VENUE: Ramanujan Lecture Hall, ICTS Bangalore How do is
From playlist Thermalization, Many Body Localization And Hydrodynamics 2019
Macroscopic fluctuation theory (Lecture - 05) by Tridib sadhu
Bangalore School on Statistical Physics - VIII DATE: 28 June 2017 to 14 July 2017 VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru This advanced level school is the eighth in the series. This is a pedagogical school, aimed at bridging the gap between masters-level courses and topics in s
From playlist Bangalore School on Statistical Physics - VIII
V3-06. Linear Programming. review of pivot, canonical form, geometric interpretation
Math 484: Linear Programming. review of pivot, canonical form, geometric interpretation Wen Shen, 2020, Penn State University
From playlist Math484 Linear Programming Short Videos, summer 2020
What Rules do we Need to Work With Quaternions?
In this video, I use a Computation Assistant to explore the algebra rules we need in order to do basic arithmetic with quaternions. Developing a Computation Assistant has been a long-term project for me, but this iteration was developed specifically for this video for the 3Blue1Brown Summ
From playlist Summer of Math Exposition Youtube Videos