In five-dimensional geometry, a truncated 5-orthoplex is a convex uniform 5-polytope, being a truncation of the regular 5-orthoplex. There are 4 unique truncations of the 5-orthoplex. Vertices of the truncation 5-orthoplex are located as pairs on the edge of the 5-orthoplex. Vertices of the bitruncated 5-orthoplex are located on the triangular faces of the 5-orthoplex. The third and fourth truncations are more easily constructed as second and first truncations of the 5-cube. (Wikipedia).
Comparing and locating integers
For interactive applets visit http://www.MathVillage.info
From playlist All about integers
Simplifying the fifth root of a rational number
👉 Learn how to find the 5th root of rational numbers. To find the 5th root of a rational number, we first express the rational number as the 5th root of the numerator divided by the 5th root of the denominator and simplify. Where the rational number can divide, we divide the numerator by t
From playlist Divide the 5th root of a number
How to take the odd root of a negative integer, cube root
👉 Learn how to find the cube root of a number. To find the cube root of a number, we identify whether that number which we want to find its cube root is a perfect cube. This is done by identifying a number which when raised to the 3rd power gives the number which we want to find its cube r
From playlist How To Simplify The Cube Root of a Number
Factoring Quadratics 5 Algebra Regents
In this video, we present a worked example to review basic factoring of quadratic expressions
From playlist Unit 2 Cumulative Assessment
Take the cube root of a number using the product of cubed numbers, cuberoot(250)
👉 Learn how to find the cube root of a number. To find the cube root of a number, we identify whether that number which we want to find its cube root is a perfect cube. This is done by identifying a number which when raised to the 3rd power gives the number which we want to find its cube r
From playlist How To Simplify The Cube Root of a Number
14K Polar Form of Complex Numbers and the nth Root
An equation for calculating the n-th root of any number.
From playlist Linear Algebra
Learning how to take the cube root of a negative number, cube root(-27)
👉 Learn how to find the cube root of a number. To find the cube root of a number, we identify whether that number which we want to find its cube root is a perfect cube. This is done by identifying a number which when raised to the 3rd power gives the number which we want to find its cube r
From playlist How To Simplify The Cube Root of a Number
How to take the cube root of negative 64 using prime factorization, cuberoot(-64)
👉 Learn how to find the cube root of a number. To find the cube root of a number, we identify whether that number which we want to find its cube root is a perfect cube. This is done by identifying a number which when raised to the 3rd power gives the number which we want to find its cube r
From playlist How To Simplify The Cube Root of a Number
Simplifying the Cube Root of a 64 Using the Identify Element, Cube Root(64)
👉 Learn how to find the cube root of a number. To find the cube root of a number, we identify whether that number which we want to find its cube root is a perfect cube. This is done by identifying a number which when raised to the 3rd power gives the number which we want to find its cube r
From playlist How To Simplify The Cube Root of a Number
Data-Driven Control: Balanced Truncation
In this lecture, we describe the balanced truncation procedure for model reduction, where a handful of the most controllable and observable state directions are kept for the reduced-order model. https://www.eigensteve.com/
From playlist Data-Driven Control with Machine Learning
73939133 - Probably the Most Interesting Prime Number [Part 1]
Programming Video: https://youtu.be/f2lEB4nMmyI PyMath Playlist: https://www.youtube.com/playlist?list=PLN2B6ZNu6xmdS12rCSWlMUV4XTBhJ0SKr Today we would liek to talk about right-truncatable prime numbers and the math behind them! :D Truncatable Prime numbers are special numbers, where you
From playlist Number Theory
The k-Poly Algebra and truncations | Algebraic Calculus Two | Wild Egg Maths
We introduce finite algebraic approximations to the algebra of polynumbers called k-polys, where k is a natural number. The key notion here is that of an algebra: which is a linear or vector space with an additional (associative) multiplication that distributes with the linear structure o
From playlist Algebraic Calculus Two
Liouville's number, the easiest transcendental and its clones (corrected reupload)
This is a corrected re-upload of a video from a couple of weeks ago. The original version contained one too many shortcut that I really should not have taken. Although only two viewers stumbled across this mess-up it really bothered me, and so here is the corrected version of the video, ho
From playlist Recent videos
Lower Bounds, Upper Bounds and Error Intervals
"Calculate the upper and lower bound of rounded values or identify an error interval."
From playlist Number: Rounding & Estimation
73939133 - Probably the Most Interesting Prime Number [Part 2][PyMath #2]
The Math behind: https://youtu.be/5BFDdVqAFZE PyMath Playlist: https://www.youtube.com/playlist?list=PLN2B6ZNu6xmdS12rCSWlMUV4XTBhJ0SKr Today we code a program that spits out a list of all possible right truncatable Prime Numbers and thus, also the biggest one in existence 73939133. Trunca
From playlist Number Theory
Sophia CHABYSHEVA - Application of Light-Front methods to model theories
https://indico.math.cnrs.fr/event/2435/
From playlist Workshop “Hamiltonian methods in strongly coupled Quantum Field Theory”
Seminar on Applied Geometry and Algebra (SIAM SAGA): Dustin Mixon
Title: Packing Points in Projective Spaces Speaker: Dustin Mixon Date: Tuesday, March 8, 2022 at 11:00am Eastern Abstract: Given a compact metric space, it is natural to ask how to arrange a given number of points so that the minimum distance is maximized. For example, the setting of the
From playlist Seminar on Applied Geometry and Algebra (SIAM SAGA)
Crossover of equilibrium... by Marc Brachet
PROGRAM :UNIVERSALITY IN RANDOM STRUCTURES: INTERFACES, MATRICES, SANDPILES ORGANIZERS :Arvind Ayyer, Riddhipratim Basu and Manjunath Krishnapur DATE & TIME :14 January 2019 to 08 February 2019 VENUE :Madhava Lecture Hall, ICTS, Bangalore The primary focus of this program will be on the
From playlist Universality in random structures: Interfaces, Matrices, Sandpiles - 2019
Truncation with Error Intervals | Number | Grade 5 Crossover Playlist | GCSE Maths Tutor
A video revising the techniques and strategies for writing error intervals with truncation (Higher and Foundation). Error Intervals With Roynding - https://youtu.be/xcOJxkxqNbU This video is part of the Number module in GCSE maths, see my other videos below to continue with the series.
From playlist GCSE Maths Videos
This video introduces radicals and explains how to simplify perfect square, cube, and nth roots. http://mathispower4u.wordpress.com/
From playlist Radicals