Darlithoedd
Lecture 16
Summary.
Method of Matched Asymptotic Expansions
Dimensionless parameters
Lecture 15
Summary.
Method of Matched Asymptotic Expansions
Lecture 14
Summary.
Stirling's approximation
Lecture 13
Summary.
Laplace's method
Lecture 12
Summary.
Asymptotic approximations of integrals
Examples
Introduction to Laplace's method
Lecture 11
Summary.
Lindstedt-Poincare method
Introducing an unknown frequency of periodic solutions
Using the unknown frequency to eliminate secular terms
Lecture 10
Summary.
Duffing's equation
Seeking a solution via a straightforward approach
Encountering a secular term
Lecture 09
Summary.
Mass on a non-linear spring
Conservation of mechanical energy
Introduction of a small parameter
Lecture 08
Summary.
Kruskal-Newton graphs
Lecture 07
Summary.
Singular perturbation ansatz
Dominant balance (a more complicated example)
Lecture 06
Summary.
Singular perturbation ansatz
Dominant balance
Lecture 05
Summary.
Regularly perturbed ODE
Singularly perturbed algebraic equation
Lecture 04
Summary.
Operations with Landau symbols
Integration and differentiation
Asymptotic sequences
Asymptotic expansions
Lecture 03
Summary.
Big \(O\) examples
Little \(o\)
Asymptotic equivalence (\(\sim\))
Lecture 02
Summary.
Landau symbols
Big \(O\)
Example
Lecture 01
Summary.
How the module works
Why study asymptotic methods?
Introduction - a toy example approximating a root of a quadratic equation