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0:08:56

L30.1 Separation of variables - spherical polar coordinates - Example 3.7

0:12:48

L29.2 Separation of variables - spherical polar coordinates - Example 3.6 P-II

0:12:59

L29.1 Separation of variables - spherical polar coordinates - Example 3.6 P-I

0:16:29

L28.3 Separation of variables - spherical polar coordinates - P-II

0:15:56

L28.2 Separation of variables - spherical polar coordinates - P-I

0:15:07

L28.1 Separation of variables - Cartesian coordinates - Example 3.5 P-III

0:10:35

L27.4 Separation of variables - Cartesian coordinates - Example 3.5 P-II

0:10:04

L27.3 Separation of variables - Cartesian coordinates - Example 3.5 P-I

0:11:10

L27.2 Separation of variables - Cartesian coordinates - Example 3.4 P-II

0:11:08

L27.1 Separation of variables - Cartesian coordinates - Example 3.4 P-I

0:11:48

How to perform different analyses on the same data in multi-layers in OriginPro

0:38:25

Introduction to Rietveld refinement of XRD data using GSAS-II

0:21:56

L26.4 Separation of variables - Cartesian coordinates - Example 3.3

0:15:39

L26.3 Separation of variables - Cartesian coordinates - Example 3.3

0:15:35

L26.2 Separation of variables - Cartesian coordinates - Example 3.3

0:15:29

L26.1 Separation of variables - Cartesian coordinates - Example 3.3

0:21:11

L25.2 The method of images - induced charge

0:16:56

L25.1 The method of images

0:19:40

L24.4 Laplace's Equation in three dimensions

0:16:54

L24.3 Laplace's Equation in two dimensions

0:12:06

L24.2 Laplace's Equation in one dimension

0:14:40

L24.1 Special Techniques: Laplace's Equation: Introduction

0:11:46

How to Install OriginPro 2024 for Free [Dark Mode]

0:06:34

How does Coulomb's law of electrostatics effectively apply to moving charges within an atom?