FYSA1130 Numerical Methods in Physics (4 cr)

Open the course unit brochure on Sisu

Study level:

Intermediate studies

Grading scale:

0-5

Language:

Finnish

Responsible organisation:

Department of Physics

Curriculum periods:

2020-2021, 2021-2022, 2022-2023

Description

Numerical integrals and derivatives.
Solving linear and non-linear equations numerically.

Solve ordinary- and partial differential equations numerically.
Differences between boundary-, initial- and eigenvalue problems.
Numerical optimization and fitting
Limitations of numerics and estimating errors

Learning outcomes

Upon completion of the course the student is able to

calculate numerical derivatives and integrals
solve simultanous linear and non-linear equations numerically

solve ordinary differential equation numerically
solve elliptic partial differential equation numerically
deal with boundary-, initial- and eigenvalue problems.
use different methods for non-linear optimization
fit linear and non-linear models to data.

Assess the accuracy and precision of numerical solutions

Additional information

Own laptop for use during the lectures and during the exam is highly recommended but not mandatory.
Uses a web platform, such as TIM, where Python code can be run and returned for evaluation.

Description of prerequisites

Reasonable knowledge of high school level physics and mathematics
Some familiarity with concepts relating to differential equations
Basic level Python programming skills

Familiarity with NumPy, SciPy and matplotlib libraries

Study materials

Lecture notes
Python language documentation
NumPy, SciPy and matplotlib documentation

Literature

Newman, Computational Physics

Completion methods

Method 1

Evaluation criteria:

Harjoitustehtävät ja tentti (esim. harjoitustehtävät 50 %, tentti 50 %).

Time of teaching:

Period 3

Select all marked parts

Method 2

Description:

This method is intended for students for whom method 1 is not possible for specific reasons (e.g. language, living elsewhere). The course lecturer must be contacted before enrolling on the course.

Evaluation criteria:

A scheduled home exam and the ability to explain the solutions in an assessment discussion.

Time of teaching:

Period 5, Period 4, Period 2, Period 1

Select all marked parts

Method 3

Description:

This method is intended for students for whom method 1 is not possible for specific reasons (e.g. language, living elsewhere). The course lecturer must be contacted before enrolling on the course.

Evaluation criteria:

Acceptable completion of the project.

Select all marked parts

Parts of the completion methods

Teaching (4 cr)

Type:

Participation in teaching

Grading scale:

0-5

Evaluation criteria:

Harjoitustehtävät ja tentti (esim. harjoitustehtävät 50 %, tentti 50 %).

Language:

English, Finnish

Study methods:

Luennot, harjoitustehtävät, ohjaukset ja tentti.

Teaching

1/7–3/14/2021 Lectures

3/12–3/12/2021 1. Final exam

4/9–4/9/2021 2. Final exam

Independent study (4 cr)

Type:

Independent study

Grading scale:

0-5

Evaluation criteria:

A scheduled home exam and the ability to explain the solutions in an assessment discussion.

Language:

English, Finnish

Study methods:

Self-study, home exam and an assessment discussion.

Teaching

8/31/2020–7/31/2021 Independent project, (home exam and assessment discussion)

Independent study (4 cr)

Type:

Independent study

Grading scale:

0-5

Evaluation criteria:

Acceptable completion of the project

Language:

English, Finnish

Study methods:

Self-Study, project work.

FYSA1130 Numerical Methods in Physics (4 cr)

Description

Learning outcomes

Additional information

Description of prerequisites

Study materials

Literature

Completion methods

Method 1

Method 2

Method 3

Teaching (4 cr)

Teaching

1/7–3/14/2021 Lectures

3/12–3/12/2021 1. Final exam

4/9–4/9/2021 2. Final exam

Independent study (4 cr)

Teaching

8/31/2020–7/31/2021 Independent project, (home exam and assessment discussion)

Independent study (4 cr)

Teaching

8/31/2020–7/31/2021 Independent project, (project work)