The University of Sydney
Introduction to Advanced Calculus
The University of Sydney

Introduction to Advanced Calculus

David Easdown

Instructor: David Easdown

Top Instructor

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Gain insight into a topic and learn the fundamentals.
Intermediate level
Some related experience required
38 hours to complete
3 weeks at 12 hours a week
Flexible schedule
Learn at your own pace
Gain insight into a topic and learn the fundamentals.
Intermediate level
Some related experience required
38 hours to complete
3 weeks at 12 hours a week
Flexible schedule
Learn at your own pace

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Recently updated!

September 2024

Assessments

28 assignments

Taught in English

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There are 4 modules in this course

This module begins by reviewing limit definitions of the derivative, looking in depth at underlying results and principles such as the Mean Value Theorem and the Intermediate Value Theorem, leading to methods for finding approximate solutions of equations. New techniques are introduced, such as L'Hopital's Rule for finding difficult limits and the lightning fast Newton's Method for homing in on roots of equations. The module finishes by adding hyperbolic functions to the toolkit, complementing existing knowledge of circular functions.

What's included

13 videos8 readings7 assignments

This module begins by reviewing areas under curves, the method of Riemann sums, leading to definite integrals, and the Fundamental Theorem of Calculus, leading to indefinite integrals. It then reviews integration by substitution, including difficult examples, and revisits logarithms and exponentials and their properties, using the constructive late transcendental method (compared with the existential early transcendental method). The module then introduces the method of integration by parts and the method of partial fractions, including a sketch of underlying related principles from linear algebra. The module then introduces the disc and shell methods for finding volumes of revolution, formulae for finding surface areas of revolutions, related to arc length, and the concept of work from physics. The module finishes with an introduction to improper integrals, their many variations and contrasting techniques, including a discussion of the painter's paradox, involving Torricelli's trumpet, which has a finite volume but infinite surface area.

What's included

17 videos10 readings9 assignments

This third module begins by reviewing concepts related to sequences, including the Monotone Convergence Theorem, which is used frequently to guarantee convergence of limits and series under certain conditions. The module then introduces series, which are sums of sequences, which go on forever, and defined formally as limits of partial sums, which may or may not converge. Geometric, harmonic and alternating harmonic series are introduced, leading to the Ratio Test and the Alternating Test for convergence. Power series representations are introduced, including explicit formulae for Taylor and Maclaurin series, in terms of iterated derivatives and factorials. Important functions, such as exponential, logarithmic, circular and hyperbolic functions, are analysed, compared and contrasted, from the point of view of series representations. Approximations of functions are studied using Taylor and Maclaurin polynomials, which result by truncating the respective infinite series. This leads to Taylor's Theorem, which enables one to control the quality of the approximation and make predictions using a remainder term. The method is also used to prove Euler's number e is irrational and that the alternating harmonic series converges to the natural logarithm of 2.

What's included

11 videos5 readings6 assignments

This fourth and final module serves as an introduction to the vast theory of differential equations. It begins with the class of separable equations, generalising the simplest cases where the derivative of a function is proportional to the value of the function, used to model exponential growth and decay. Introducing an inhibition or death factor, leads to the logistic equation and its solution, the logistic function, used to model wide ranging phenomena in science and population dynamics. A discussion of equilibrium solutions and their stability ensues. The module then considers a class of first order linear differential equations, which may be solved using an integrating factor method, an instance of the Conjugation Principle, used widely in mathematics to solve difficult problems or avoid obstacles. The module then considers second order equations with constant coefficients, which have solution spaces that are two-dimensional, analogous to planes in space. The module finishes with an introduction to solutions of systems of equations, which model interacting populations, in a symbiotic or predator-prey relationship, including a brief overview of connections with concepts in linear algebra and the matrix exponential.

What's included

11 videos6 readings6 assignments

Instructor

David Easdown

Top Instructor

The University of Sydney
3 Courses256,332 learners

Offered by

Recommended if you're interested in Math and Logic

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