In six-dimensional geometry, a runcinated 5-simplex is a convex uniform 5-polytope with 3rd order truncations (Runcination) of the regular 5-simplex. There are 4 unique runcinations of the 5-simplex with permutations of truncations, and cantellations. (Wikipedia).
Tutorial - Graphing complex numbers ex 3, -5 + 3i
http://www.freemathvideos.com In this video playlist you will learn everything you need to know with complex and imaginary numbers -5 + 3i
From playlist Complex Numbers
Pre-Calculus - Multiplying complex numbers (root(14)+root(10) i) (root(14)-root(10) i)
http://www.freemathvideos.com In this math tutorial I will show you how to multiply complex numbers. Complex numbers come in the form of a +bi. Multiplying complex numbers carry some of the same properties as multiplying polynomials. However when simplifying we will notice some differences
From playlist Complex Numbers
Algebra 2 - Multiplying imaginary numbers -4i . (5i)
http://www.freemathvideos.com In this video tutorial I show you how to multiply imaginary numbers. We will multiply monomials, binomials and trinomials together and then simplify. It is important when multiplying complex number that we simplify the answer and write in standard complex num
From playlist Complex Numbers
Pre-Calculus - Multiplying complex numbers (2root(-3) (-4root(-12))
http://www.freemathvideos.com In this math tutorial I will show you how to multiply complex numbers. Complex numbers come in the form of a +bi. Multiplying complex numbers carry some of the same properties as multiplying polynomials. However when simplifying we will notice some differences
From playlist Complex Numbers
Tutorial - Simplifying Expressions with Complex numbers ex 3, 5i(3 + 2i)(8 + 3i)
http://www.freemathvideos.com In this video playlist you will learn everything you need to know with complex and imaginary numbers 5i(3 + 2i)(8 + 3i)
From playlist Complex Numbers
Ex 3: Multiply Complex Numbers
This video provides examples of how to multiply and square complex numbers. Library: http://mathispower4u.com Search: http://mathispower4u.wordpress.com
From playlist Performing Operations with Complex Numbers
Simplex Algorithm - Decision 1 OCR
Powered by https://www.numerise.com/ How to write and carry out the simplex method for the Decision 1 exam www.hegartymaths.com http://www.hegartymaths.com/
From playlist Decision Maths 1 OCR Exam Board (A-Level tutorials)
Complex Numbers - Mod-Arg Form (5 of 5: Conversion Example 2)
More resources available at www.misterwootube.com
From playlist Introduction to Complex Numbers
Decision 1 OCR Q6 Jan 2011 Past Paper Question
Powered by https://www.numerise.com/ Answer to simplex method question Q6 Jan 2011 www.hegartymaths.com http://www.hegartymaths.com/
From playlist Decision Maths 1 OCR Exam Board (A-Level tutorials)
Tutorial - Simplifying Expressions with Complex numbers ex 8, ((5-2i) + (5+3i))/((1+i) - (2-4i))
http://www.freemathvideos.com In this video playlist you will learn everything you need to know with complex and imaginary numbers ((5 - 2i) + (5 + 3i))/((1 + i) - (2 - 4i))
From playlist Complex Numbers
Francis BROWN - Graph Complexes, Invariant Differential Forms and Feynman integrals
Kontsevich introduced the graph complex GC2 in 1993 and raised the problem of determining its cohomology. This problem is of renewed importance following the recent work of Chan-Galatius-Payne, who related it to the cohomology of the moduli spaces Mg of curves of genus g. It is known by Wi
From playlist Algebraic Structures in Perturbative Quantum Field Theory: a conference in honour of Dirk Kreimer's 60th birthday
The cup product operation [Ling Zhou]
In this tutorial, you will learn about the cup product operation in the simplicial setting, and go through an example of computing it in the 2-torus. The cup product induces a ring structure on cohomology, making it more informative than homology. In the TDA community, many attentions have
From playlist Tutorial-a-thon 2021 Fall
V5 10: Linear Programming: The Dual Simplex Algorithm
Linear Programming: The Dual Simplex Algorithm
From playlist Math484 Linear Programming Short Videos, summer 2020
Linear Programming. Lecture 23. Adding a constraint. Integer programming-introduction
Nov. 15, 2016. Penn State University.
From playlist Math484, Linear Programming, fall 2016
Linear Programming, Lecture 22. Change the constant term. Dual Simplex algorithm.
Nov 10, 2016. Penn State University.
From playlist Math484, Linear Programming, fall 2016
Tutorial - How do we multiply complex numbers ex 13, (8 + i)(7 + 2i)
http://www.freemathvideos.com In this video playlist you will learn everything you need to know with complex and imaginary numbers (8 + i)(7 + 2i)
From playlist Complex Numbers
V3-09. Linear Programming. introduction to Simplex method. Step 4.
Math 484: Linear Programming. introduction to Simplex method. Step 4. Wen Shen, 2020, Penn State University
From playlist Math484 Linear Programming Short Videos, summer 2020
Perfect Shapes in Higher Dimensions - Numberphile
Carlo Sequin talks through platonic solids and regular polytopes in higher dimensions. More links & stuff in full description below ↓↓↓ Extra footage (Hypernom): https://youtu.be/unC0Y3kv0Yk More videos with with Carlo: http://bit.ly/carlo_videos Edit and animation by Pete McPartlan Pete
From playlist Carlo Séquin on Numberphile
Algebra 2 - Multiplying complex numbers (4-5i)(4+i)
http://www.freemathvideos.com In this video tutorial I show you how to multiply imaginary numbers. We will multiply monomials, binomials and trinomials together and then simplify. It is important when multiplying complex number that we simplify the answer and write in standard complex num
From playlist Complex Numbers
Kathryn Hess (6/27/17) Bedlewo: Topology meets neuroscience
I will present an overview of applications of topology to neuroscience on a wide range of scales, from the level of neurons to the level of brain regions. In particular I will describe collaborations in progress with the Blue Brain Project on topological analysis of the structure and funct
From playlist Applied Topology in Będlewo 2017