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This course deals with analytical, numerical, and geometric techniques for differential equations, including applications.
This course is a core part of 200 level maths (along with MATH201 and MATH203) and is strongly recommended to anyone who is considering majoring in mathematics or another subject that involves a high level of numeracy. It covers more advanced techniques in differential equations with interesting applications to many areas of science, commerce and engineering.Topics covered:Differential equations: Reduction of order. Variation of Parameters.Systems of linear and nonlinear first order differential equations, including phase plane techniques. Introduction to numerical methods. Stiff systems. Laplace Transforms: Initial Value Problems, Shift Theorems, step functions and impulses, convolution, resonance. Fourier Series. Introduction to Fourier Transforms.
At the end of this course, students will:be able to use standard techniques to solve linear differential equations: variation of parameters, Laplace transforms, convolutions and Fourier seriesdemonstrate understanding of why these techniques work and when they will notbe able to make an appropriate choice of analytical, geometric or numerical algorithm for a given problembe able to use these techniques in a variety of modelling applications, using appropriate softwarehave developed problem solving skills both as part of a team and as an individualhave developed written and oral communcation skills, emphasizing the ability to explain what the mathematics means
MATH103 or MATH199 or EMTH119
MATH262, MATH264, EMTH202, EMTH204
Rachael Tappenden
Miguel Moyers Gonzalez
General information for students Library portal LEARN
Domestic fee $764.00
International fee $4,000.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Mathematics and Statistics .