Tensors | Computer algebra systems
The Lisp Algebraic Manipulator (also known as LAM) was created by , who had written Atlas LISP Algebraic Manipulation (ALAM was designed in 1970). LAM later became the basis for the interactive computer package SHEEP. (Wikipedia).
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Multiplying rational expressions
Learn how to multiply rational expressions. A rational expression is an expression in the form of a fraction where the numerator and/or the denominator are/is an algebraic expression. To multiply two rational expressions, we use the distributive property to multiply both numerators togethe
From playlist Multiply Rational Expressions (Binomials) #Rational
Learn the process to simplifying and dividing rational expressions
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Lecture 3B: Symbolic Differentiation; Quotation
MIT 6.001 Structure and Interpretation of Computer Programs, Spring 2005 Instructor: Harold Abelson, Gerald Jay Sussman, Julie Sussman View the complete course: https://ocw.mit.edu/6-001S05 YouTube Playlist: https://www.youtube.com/playlist?list=PLE18841CABEA24090 Symbolic Differentiation
From playlist MIT 6.001 Structure and Interpretation, 1986
Lecture 3B | MIT 6.001 Structure and Interpretation, 1986
Symbolic Differentiation; Quotation Despite the copyright notice on the screen, this course is now offered under a Creative Commons license: BY-NC-SA. Details at http://ocw.mit.edu/terms Subtitles for this course are provided through the generous assistance of Henry Baker, Hoofar Pou
From playlist MIT 6.001 Structure and Interpretation, 1986
The Computer Science Wizard Book
This is the legendary "Wizard Book". It is dedicated to the spirit which lives inside the computer. This book covers the fundamentals of computer programming using Scheme which is a dialect of Lisp. One of the coolest things about this book is that there are lectures online you can watch t
From playlist Book Reviews
Week 11: Friday - CS50 2007 - Harvard University
Designing Web-based software. Cybersecurity. Sneak preview of CS 51.
From playlist CS50 Lectures 2007
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Learning to make multiplying rational expressions easy
Learn how to multiply rational expressions. A rational expression is an expression in the form of a fraction where the numerator and/or the denominator are/is an algebraic expression. To multiply two rational expressions, we use the distributive property to multiply both numerators togethe
From playlist Multiply Rational Expressions (Binomials) #Rational
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
Learn how to divide rational expressions. A rational expression is an expression in the form of a fraction, usually having variable(s) in the denominator. Recall that to divide by a fraction, we multiply by the reciprocal of the fraction. The same rule applies when we want to divide by a r
From playlist How to Divide Rational Expressions #Rational
7. Layered Knowledge Representations
MIT 6.868J The Society of Mind, Fall 2011 View the complete course: http://ocw.mit.edu/6-868JF11 Instructor: Marvin Minsky In this lecture, students discuss the nature of consciousness, asking what it is, and then asking whether the question is well founded. License: Creative Commons BY-
From playlist MIT 6.868J The Society of Mind, Fall 2011
History of Science and Technology Q&A (Apr. 7, 2021)
Stephen Wolfram hosts a live and unscripted Ask Me Anything about the history of science and technology for all ages. Originally livestreamed at: https://twitch.tv/stephen_wolfram/ Outline of Q&A 0:00 Stream starts 2:28 Stephen begins the stream 3:00 History of Lisp 40:40 What was ctrl+en
From playlist Stephen Wolfram Ask Me Anything About Science & Technology
Clojure for Java Programmers Part 1 - Rich Hickey
Part 1 of a presentation by Rich Hickey to the NYC Java Study Group. A gentle introduction to Clojure, part 1 focuses on reader syntax, core data structures, code-as-data, evaluation, special operators, functions, macros and sequences. No prior exposure to Lisp is presumed.
From playlist Clojure, Lisp
Lecture 4A: Pattern Matching and Rule-based Substitution
MIT 6.001 Structure and Interpretation of Computer Programs, Spring 2005 Instructor: Harold Abelson, Gerald Jay Sussman, Julie Sussman View the complete course: https://ocw.mit.edu/6-001S05 YouTube Playlist: https://www.youtube.com/playlist?list=PLE18841CABEA24090 Pattern Matching and Rul
From playlist MIT 6.001 Structure and Interpretation, 1986
Lecture 3A: Henderson Escher Example
MIT 6.001 Structure and Interpretation of Computer Programs, Spring 2005 Instructor: Harold Abelson, Gerald Jay Sussman, Julie Sussman View the complete course: https://ocw.mit.edu/6-001S05 YouTube Playlist: https://www.youtube.com/playlist?list=PLE18841CABEA24090 Henderson Escher Example
From playlist MIT 6.001 Structure and Interpretation, 1986
Applying long division with a remainder
👉 Learn how to divide polynomials by binomial divisors using the long division algorithm. A binomial is an algebraic expression having two terms. Before dividing a polynomial, it is usually important to arrange the divisor in the descending order of powers of the variable(s). To divide a p
From playlist Divide Polynomials using Long Division with linear binomial divisor
Lecture 4A | MIT 6.001 Structure and Interpretation, 1986
Pattern Matching and Rule-based Substitution Despite the copyright notice on the screen, this course is now offered under a Creative Commons license: BY-NC-SA. Details at http://ocw.mit.edu/terms Subtitles for this course are provided through the generous assistance of Henry Baker, H
From playlist MIT 6.001 Structure and Interpretation, 1986