A Multitrack Turing machine is a specific type of multi-tape Turing machine. In a standard n-tape Turing machine, n heads move independently along n tracks. In a n-track Turing machine, one head reads and writes on all tracks simultaneously. A tape position in a n-track Turing Machine contains n symbols from the tape alphabet. It is equivalent to the standard Turing machine and therefore accepts precisely the recursively enumerable languages. (Wikipedia).
How to operate multiple operations with Multi-Digit Numbers!
Division Coming in the future if people want it enough
From playlist Summer of Math Exposition Youtube Videos
Multivariable Calculus: Cross Product
In this video we explore how to compute the cross product of two vectors using determinants.
From playlist Multivariable Calculus
Worldwide Calculus: Euclidean Space
Lecture on 'Euclidean Space' from 'Worldwide Multivariable Calculus'. For more lecture videos and $10 digital textbooks, visit www.centerofmath.org.
From playlist Multivariable Spaces and Functions
15_3_3 Continuation of previous problem
In the video I continue with the previous example problem.
From playlist Advanced Calculus / Multivariable Calculus
11_3_6 Continuity and Differentiablility
Prerequisites for continuity. What criteria need to be fulfilled to call a multivariable function continuous.
From playlist Advanced Calculus / Multivariable Calculus
Worldwide Calculus: Multi-Component Functions of a Single Variable
Lecture on 'Multi-Component Functions of a Single Variable' from 'Worldwide Multivariable Calculus'. For more lecture videos and $10 digital textbooks, visit www.centerofmath.org.
From playlist Worldwide Multivariable Calculus
Plotting Points (x, y, z) in 3-Space: Dynamic Illustrator
Link: https://www.geogebra.org/m/rA4fWtKH
From playlist Multivariable Calculus: Dynamic Interactives!
MIT 18.404J Theory of Computation, Fall 2020 Instructor: Michael Sipser View the complete course: https://ocw.mit.edu/18-404JF20 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP60_JNv2MmK3wkOt9syvfQWY Quickly reviewed last lecture. Gave an introduction to complexity the
From playlist MIT 18.404J Theory of Computation, Fall 2020
6. TM Variants, Church-Turing Thesis
MIT 18.404J Theory of Computation, Fall 2020 Instructor: Michael Sipser View the complete course: https://ocw.mit.edu/18-404JF20 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP60_JNv2MmK3wkOt9syvfQWY Quickly reviewed last lecture. Showed that various TM variants are al
From playlist MIT 18.404J Theory of Computation, Fall 2020
What We've Learned from NKS Chapter 5: Two Dimensions and Beyond
In this episode of "What We've Learned from NKS", Stephen Wolfram is counting down to the 20th anniversary of A New Kind of Science with [another] chapter retrospective. If you'd like to contribute to the discussion in future episodes, you can participate through this YouTube channel or th
From playlist Science and Research Livestreams
Live CEOing Ep 348: Language Design in Wolfram Language [Echo, TuringMachine & Association]
In this episode of Live CEOing, Stephen Wolfram discusses the language design of Wolfram Language functions relating to Echo, TuringMachine, and Association. If you'd like to contribute to the discussion in future episodes, you can participate through this YouTube channel or through the of
From playlist Behind the Scenes in Real-Life Software Design
Wolfram Physics Project: Working Session Tuesday, May 26, 2020 [Rulial Space and Other Topics]
This is a Wolfram Physics Project working session on Rulial space and other topics in the Wolfram Model. Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcement post: http://
From playlist Wolfram Physics Project Livestream Archive
Wolfram Physics Project: Working Session Thursday, June 4, 2020 [New Emerging Understandings]
This is a Wolfram Physics Project working session on new emerging understandings in the Wolfram Model with general Q&A. Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcemen
From playlist Wolfram Physics Project Livestream Archive
Wolfram Physics Project: Working Session Dec. 29, 2020 [Exploring Non-Deterministic Computation]
This is a Wolfram Physics Project working session on exploring non-deterministic computation. Begins at 9:27 Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcement post: htt
From playlist Wolfram Physics Project Livestream Archive
Wolfram Physics Project: Working Session Tuesday, Feb. 9, 2021 [Quantum Observers & NP-Completeness]
This is a Wolfram Physics Project working session on Quantum Observers and NP-Completeness. Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcement post: http://wolfr.am/phys
From playlist Wolfram Physics Project Livestream Archive
The "tangent plane" of the graph of a function is, well, a two-dimensional plane that is tangent to this graph. Here you can see what that looks like.
From playlist Multivariable calculus
Wolfram Physics Project: Working Session Saturday, June 27, 2020 [Multiway Systems]
This is a Wolfram Physics Project working session on multiway systems in the Wolfram Model. Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out the announcement post: http://wolfr.am/phys
From playlist Wolfram Physics Project Livestream Archive
Link: https://www.geogebra.org/m/BtAdpcYM
From playlist Multivariable Calculus: Dynamic Interactives!
Wolfram Physics Project: Working Session Tuesday, Jan. 5, 2021 [More Examples of Multiway Systems]
This is a Wolfram Physics Project working session on exploring more examples of multiway systems in the Wolfram Model. Begins at 5:20 Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check out t
From playlist Wolfram Physics Project Livestream Archive