Все публикации

0:42:26

Lecture 30 - Supplementary - Relative velocity and rotating planar axes

0:44:39

Lecture 28 - Fixed-axis rotation of rigid bodies

0:55:11

Lecture 25 - Damped harmonic oscillator

0:42:01

Lecture 23 - Oscillation of bounded systems and undamped harmonic oscillators

0:40:02

Lecture 22 - Potential energy and stability

0:40:03

Lecture 21 - Application of vector calculus to forces and potentials

0:54:18

Lecture 17 - Mass flow problems (accelerating systems)

0:48:02

Lecture 16 - Newton's law for mass flow systems (non-accelerating bodies)

1:06:29

Lecture 12 supplementary 2 - Collision

1:03:26

Lecture 10 - Supplementary - Problem solving using the work-energy approach

0:53:43

Lecture 14 - Angular momentum of a system of particles about centre of mass and a general point

0:46:16

Lecture 13 - Force and linear momentum of a system of particles

0:26:36

Lecture 12 supplementary - Conical pendulum problem

0:54:24

Lecture 12 - Linear and angular momentum

0:55:40

Lecture 10 - Introduction to Work and Energy

0:46:38

Lecture 6 - Geometrical view of acceleration in polar coordinates and normal-tangential coordinates

0:49:12

Lecture 3 - Velocity in polar coordinates

0:49:28

Lecture 7 - Introduction to Newton's second law of motion

0:56:58

Lecture 2 - Derivatives of vectors and introduction to polar coordinates

0:44:41

Lecture 9 - Newton's laws of motion in polar coordinates

0:57:39

Lecture 1 - Introduction

1:53:24

Computational modelling of polydisperse multiphase systems using population balance equation

1:02:51

Population balance modelling hands-on session using finite element and finite volume (ANSYS Fluent)

2:00:34

Open-source Fluidity Finite Element code for multiphase flow modelling using population balances