Kies de Nederlandse taal
Course module: 202001217
Calculus 2
Course info
Course module202001217
Credits (ECTS)3
Course typeStudy Unit
Language of instructionEnglish
Contact persondr. T.S. Craig
PreviousNext 2
Examiner A. Braaksma
dr. T.S. Craig
dr. T.S. Craig
Contactperson for the course
dr. T.S. Craig
prof.dr. J.L. Hurink
Academic year2021
Starting block
Application procedureYou apply via OSIRIS Student
Registration using OSIRISYes
The student will
  • be proficient in techniques of solving integrals including improper integrals as well as be familiar with the Fundamental Theorem of Calculus.
  • Have a thorough understanding of infinite series and tests for convergence, in particular power and Taylor series.
  • Be able to parametrise space curves and find arc lengths and tangent lines.
  • Be able to work effectively with functions of two variables including sketching, assessing for differentiability, determining directional derivatives and tangent planes, and finding extrema using methods including Lagrange multipliers.
Sequences, series and summation: We shall define sequences and series and consider the convergence of infinite sequences and series. To do this we use a variety of different tests for convergence and also look at approximation errors. Series of particular interest are the p-series, geometric series, and Taylor and Maclaurin expansions. We shall consider summation techniques with particular interest in the relationship with Riemann sums.
Integration: We define integration in the context of areas under curves and use Riemann sums to determine definite integrals from first principles. We study the Fundamental Theorem of Calculus and use some integration techniques such as integration by substitution and integration by parts.
Three-dimensional geometry: Our primary interest here is in space curves and surfaces. We parametrise space curves, find arc lengths, and determine the intersection of surfaces as curves. We see the graphs of functions of two variables as surfaces and consider what it means for limits of such functions to exist and how to define continuity. In the context of surfaces we consider families of level curves, tangent planes, directional derivatives and optima. We close off this section with Taylor series in two variables and using Lagrange multipliers to determine optima.
Assumed previous knowledge
Secondary school mathematics up to and including an introduction to calculus. Calculus 1 for AT & EE is preferred but not required.
Module 2
Participating study
Bachelor Electrical Engineering
Required materials
Adams, R.A. and Essex, C. (2018).Calculus: A Complete Course, 9th Edition. Pearson. ISBN: 9780134154367
Recommended materials
Instructional modes
Presence dutyYes

Presence dutyYes

Self study with assistance
Presence dutyYes

Self study without assistance

Presence dutyYes

Calculus 2

Closed book, written test

Kies de Nederlandse taal