Numerical analysis | Differential calculus
In numerical analysis, numerical differentiation algorithms estimate the derivative of a mathematical function or function subroutine using values of the function and perhaps other knowledge about the function. (Wikipedia).
Lecture: Numerical Differentiation Methods
From simple Taylor series expansions, the theory of numerical differentiation is developed.
From playlist Beginning Scientific Computing
Differentiation _ Explaining Differentiation.mov
Explains the connection between a limit, differentiation, and distance and velocity in classical mechanics.
From playlist Differentiation
Implicit Differentiation (Differentiating a function without needing to rearrange for x or y)
More resources available at www.misterwootube.com
From playlist Applications of Calculus
INTRODUCTION TO IMPLICIT DIFFERENTIATION - A-Level Maths
Comparing Implict and Explicit Equations in A-Level Maths NOTE: This is A2 Content not AS #alevelmaths #smallyoutuber #2022
From playlist FURTHER DIFFERENTIATION
DIFFERENTIATION - AS Level Maths
Well to the DIFFERENTIATION chapter for the AS Level Maths new specification (2017)! DIFFERENTIATION AS Level Maths: https://www.youtube.com/playlist?list=PLN6Lp_3e9iW3TlaCRzx6a6dig2eZdqGC8 Differentiation is our first introduction to calculus at AS Level and A Level Maths. Differentiat
From playlist AS Level Maths Pure - AQA, Edexcel and OCR MEI
Introduction to Implicit Differentiation Calculus 1 AB
I compare Implicit Differentiation to Explicit Differentiation. Explicit differentiation requires that your equation is in the for of "y in terms of x". When solving for y is not possible or very cumbersome you use Implicit Differentiation. Please help Close Caption this lesson http://ww
From playlist Calculus
Using first and second derivatives to sketch the graph of a function.
From playlist Differentiation
Learn how to take the derivative using implicit differentiation by taking the ln of both
👉 Learn how to find the derivative of an implicit function. The derivative of a function, y = f(x), is the measure of the rate of change of the function, y, with respect to the variable x. The process of finding the derivative of a function is called differentiation. A function is said to
From playlist Find the Derivative using Implicit Differentiation
Numerical Solution of Differential Equations: Oxford Mathematics 3rd Year Student Lecture
This introductory lecture for the 3rd Year Oxford Mathematics Undergraduate Course "Numerical Solution of Differential Equations I" by Professor Endre Suli introduces the subject through the various problems involving differential equations that arise in scientific and engineering applicat
From playlist Oxford Mathematics Student Lectures - Differential Equations
Mod-01 Lec-01 Introduction and Overview
Advanced Numerical Analysis by Prof. Sachin C. Patwardhan,Department of Chemical Engineering,IIT Bombay.For more details on NPTEL visit http://nptel.ac.in
From playlist IIT Bombay: Advanced Numerical Analysis | CosmoLearning.org
Dynamics, numerical analysis and some geometry – Christian Lubich – ICM2018
Plenary Lecture 18 Dynamics, numerical analysis and some geometry Christian Lubich Abstract: Geometric aspects play an important role in the construction and analysis of structure-preserving numerical methods for a wide variety of ordinary and partial differential equations. Here we revi
From playlist Plenary Lectures
Differential Equations in Sage - Part 1
An overview of how to solve ordinary differential equations in sage, symbolically and numerically, and how to plot the resulting solutions.
From playlist Mathematical Physics I Uploads
Euler method | Lecture 2 | Differential Equations for Engineers
The simple Euler numerical method for solving an ordinary differential equation. Join me on Coursera: https://www.coursera.org/learn/differential-equations-engineers Lecture notes at http://www.math.ust.hk/~machas/differential-equations-for-engineers.pdf Subscribe to my channel: http://
From playlist Differential Equations for Engineers
Professor Mark Girolami: "Probabilistic Numerical Computation: A New Concept?"
The Turing Lectures: The Intersection of Mathematics, Statistics and Computation - Professor Mark Girolami: "Probabilistic Numerical Computation: A New Concept?" Click the below timestamps to navigate the video. 00:00:09 Introduction by Professor Jared Tanner 00:01:38 Profess
From playlist Turing Lectures
Numerical Simulation of Ordinary Differential Equations: Integrating ODEs
In this video, I provide an overview of how to numerically integrate solutions of ordinary differential equations (ODEs). These solutions are known as trajectories, and provide a powerful computational tool for us to analyze nonlinear systems, where simple analytic techniques may not work
From playlist Engineering Math: Differential Equations and Dynamical Systems
Professor Kostas Zygalakis, University of Edinburgh
Bio He received his PhD in computational stochastic differential equations from University of Warwick at 2009 and held postdoctoral positions at the Universities of Cambridge, Oxford and the Swiss Federal Institute of Technology, Lausanne. In 2011 he was awarded a Leslie Fox Prize (IMA UK
From playlist Short Talks
Reinout Quispel: How to preserve properties of differential equations under discretization
SMRI Applied Mathematics seminar: How to discover properties of differential equations, and how to preserve those properties under discretization Reinout Quispel (La Trobe University) Abstract: This talk will be in two parts. The first part will be introductory, and will address the quest
From playlist SMRI Seminars
Markov processes and applications-3 by Hugo Touchette
PROGRAM : BANGALORE SCHOOL ON STATISTICAL PHYSICS - XII (ONLINE) ORGANIZERS : Abhishek Dhar (ICTS-TIFR, Bengaluru) and Sanjib Sabhapandit (RRI, Bengaluru) DATE : 28 June 2021 to 09 July 2021 VENUE : Online Due to the ongoing COVID-19 pandemic, the school will be conducted through online
From playlist Bangalore School on Statistical Physics - XII (ONLINE) 2021
Ex 1: Determine a Derivative Using the Product Rule Involving a Trig Function
This video provides an example of determining a derivative using the product rule involving a trigonometric function. Complete Video List at http://www.mathispower4u.com
From playlist Differentiation Using the Product Rule