higher order linear differential equations, numerical methods, applications to physical systems, Laplace transforms and other topics as time allows. MATH.1320 Calculus II with a "B" or higher, or MATH ...

Some pre-Calculus, derivatives, applications of derivatives, introduction to integration. MT101 (4 hours) Basic integration notions, basic techniques of integration, applications of integration, and ...

This can solve differential equations and evaluate definite integrals. Applying differential calculus Optimisation is used to find the greatest/least value(s) a function can take. This can involve ...

Extends the treatment of engineering mathematics beyond the topics covered in Calculus 3 and differential equations. Topics include non-dimensionalization, elementary asymptotics and perturbation ...

SFU Students will learn Maple in MACM 204 Computing with Calculus (covers differential and integral caculus in one and two variables and differential equations). Matlab is a very powerful mathematical ...

Requires a strong understanding of the application of math and science principles Math and Science Students complete a four-course sequence in calculus and differential equations Students complete a ...

Introduction to differential equations with an emphasis on engineering applications. Topics include first-order equations, higher-order linear equations with constant coefficients, and systems of ...

[email protected] My expertise spans a comprehensive range of university-level mathematics, from Linear and Abstract Algebra to Multivariable and Vector Calculus, Differential Equations (both ODEs ...

The three main types of linear second order partial differential equations will be considered ... Elementary distributional calculus and the notion of weak solutions will also be considered.

Some students grasp calculus concepts but then “mess up” in working out equations. “Their mastery of basic algebraic skills is very, very low,” Ko said. Ko said he hopes future reforms, such as more ...