Course - Mathematics 2B - IR102612
Mathematics 2B
About
About the course
Course content
Sequences, series and power series.
Taylor series, Maclaurin series, Taylor's formula with remainder term.
Functions of several variables. Partial derivatives.
Maximum and minimum values for functions of several variables.
Lagrange multiplier.
Vector spaces, subspaces, linear dependence and independence.
Scalar product (inner product) and orthogonality.
Eigenvalues and eigenvectors, diagonalization, symmetric matrices and quadratic forms.
Difference equations.
First-order systems of differential equations. Use of eigenvalues and eigenvectors.
Fourier series.
Learning outcome
Learning outcomes - Knowledge:
The candidate has
- a scientific basis and understanding of mathematics to be built on by other topics
- thorough knowledge of core areas of differential equations
- has good knowledge of functions of several variables
- thorough knowledge of core areas of matrices
- good knowledge of power series
- good knowledge of difference equations
- good knowledge of Fourier series
Learning outcomes - Skills:
The candidate
- knows relevant mathematical symbols and formulas
- can manipulate symbols and formulas
- is able to reason mathematically
- can formulate technical engineering problems in mathematical language
- can use mathematical methods and tools relevant to their field
- can identify connections between mathematics and scientific engineering applications
- can assess the results of mathematical calculations
Learning outcomes - Expertise:
The candidate
- is able to use mathematics to communicate about engineering issues
- is able to understand that change per unit of measurement can be measured, calculated, summarized and included in equations
- is able to understand the level of accuracy of mathematical language, making it suitable for structuring technical engineering problems
- has a mathematical understanding which provides a basis for lifelong learning.
Learning methods and activities
Pedagogical methods:
Lectures and exercises
Compulsory requirements:
Compulsory exercises and/or compulsory submissions must be approved to get admission to the exam.
Compulsory assignments
- Obligatorisk arbeidskrav
Further on evaluation
4 hours individual two-part written examination
Specific conditions
Admission to a programme of study is required:
Civil Engineering (003BY)
Engineering - Automation (017AU)
Engineering - Computer Science (004DA)
Engineering - Product and System Design (045PS)
Ship Design (699SD)
Water and Environmental Engineering (561VM)
Recommended previous knowledge
IR102512 Mathematics 1
Subject areas
Contact information
Course coordinator
Lecturers
Department with academic responsibility
Examination
Examination
Re-sit examination - Autumn 2018
Written examination
The specified room can be changed and the final location will be ready no later than 3 days before the exam. You can find your room location on Studentweb.
Ordinary examination - Spring 2019
Written examination
The specified room can be changed and the final location will be ready no later than 3 days before the exam. You can find your room location on Studentweb.