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## Syllabus for

Matematisk fördjupning

Owner: TKKEF
6,0 Credits
Grading: TH - Five, Four, Three, Fail
Education cycle: First-cycle
Major subject: Mathematics
Department: 11 - MATHEMATICAL SCIENCES

Teaching language: Swedish
Application code: 54130
Open for exchange students: No
Only students with the course round in the programme plan

 Module Credit distribution Examination dates Sp1 Sp2 Sp3 Sp4 Summer course No Sp 0119 Examination 6,0c Grading: TH 6,0c 05 Jun 2020 pm J, 20 Aug 2020 am J

#### In programs

TKKEF CHEMICAL ENGINEERING WITH ENGINEERING PHYSICS, Year 1 (compulsory)

#### Examiner:

Inaktiv_Fredrik Inaktiv_Ohlsson

#### Replaces

TMA225   Applied mathematics TMA226   Advanced calculus

#### Eligibility:

In order to be eligible for a first cycle course the applicant needs to fulfil the general and specific entry requirements of the programme(s) that has the course included in the study programme.

#### Course specific prerequisites

• Analysis and linear algebra:
• Calculus (one and several variables)
• Ordinary differential equations
• Systems of linear equations
• Matrix algebra and determinants
• Linear Euclidean spaces and eigenvalues
• The least squares method

#### Aim

This course will provide a deeper knowledge of mathematics in such a way that further studies within the Kf program is facilitated. Special care is taken to provide the knowledge needed for more advanced courses in mathematics and physics.

#### Learning outcomes (after completion of the course the student should be able to)

• formulate, and explain the meaning of, relevant concepts, definitions and theorems
• prove some relevant fundamental theorems
• independently construct simple mathematical arguments and proofs
• master important concepts in linear algebra and for example be able to treat a function as a vector in a vector space
• analyze the convergence of sequences and solve linear difference equations
• determine convergence, absolute or conditional, of a series using appropriate convergence criteria
• determine if a function series is uniformly convergent
• determine the convergence region of a power series
• apply results concerning the interchanging of limits, and term-wise integration and differentiation
• determine the Fourier series of a periodic function

#### Content

General vector spaces and subspaces, the concepts linearly independent vectors, basis and dimension. Linear transformations. The dimension theorem. Orthogonality and inner product spaces. The Cauchy-Schwarz inequality. Orthogonal projection in general vector spaces with applications to function spaces and Fourier series.
Sequences and difference equations, series, sequences and series of functions. Convergence criteria. Uniform convergence of sequences and series. Interchange of limit procedures. Weierstrass majorant test. Applications to power series and Fourier series.

#### Organisation

The teaching is organized in the form of lectures and tutorials. Bonus points may be employed. Some material is not covered in the lectures, but left for self-study. This material is, however, just as much part of the course. The tutorials play an important role throughout the course in the integration of the entire course content, from theory to practice.

#### Literature

The course literature is specified on the course web page before the course starts.

#### Examination including compulsory elements

Written exam at the end of the course.
During the course, there may be assignments for bonus points to the written exam, e.g. in the form of quizzes or written and/or oral presentation of problem-solving assignments. More detailed information about the examination and information regarding any bonus assignments for each course instance is provided on the course web page before the start of the course.

Published: Wed 26 Feb 2020.