Mathematics in Electrical Engineering 1
FEKT-HMA1Acad. year: 2019/2020
Vectors spaces, linear combination, linear dependence. Matrices and systems of linear equations. Limit, continuity, derivative, behavior of function. Antiderivative, indefinite integral. Definite integral and its applications. Number series.
Learning outcomes of the course unit
After completing the course, students should be able to:
- decide whether vectors are linearly independent and whether they form a basis of a vector space;
- add and multiply matrices, and compute the determinant and the inverse of a square matrix;
- solve a system of linear equations;
- differentiate and find the tangent to the graph of a function;
- sketch the graph of a function including extrema, points of inflection and asymptotes;
- integrate using basic formulas including integration by parts;
- evaluate a definite integral using the Fundamental Theorem of Calculus;
- compute the area of a region using the definite integral;
- discuss the convergence of a number series;
- translate a mathematical text in the above fields (from English to Czech and vice versa).
Students should be able to work with expressions and elementary functions within the scope of standard secondary school requirements; in particular, they shoud be able to transform and simplify expressions, solve basic equations and inequalities, and find the domain and the range of a function. The knowledge of English at intermediate level is required.
Recommended optional programme components
Recommended or required reading
Planned learning activities and teaching methods
Teaching methods are specified in Article 7 of Study and Examination Regulations.
Assesment methods and criteria linked to learning outcomes
Maximum 30 points for control tests and activities during the semester (at least 10 points for the course-unit credit); maximum 70 points for a written exam.
Language of instruction
1. Basic mathematical concepts.
2. Vectors, linear combination and dependence of vectors.
3. Matrices and determinants.
4. Systems of linear equations and their solutions.
5. Limit and continuity of function.
7. Behaviour of function.
8. Antiderivative, indefinite integral.
9. Definite integral and its applications.
10. Number series, convergence tests.
The goal of the course is to explain basic concepts and computational methods of linear algebra and differential and integral calculus. The students will further learn to translate mathematical texts in the above fields (from English to Czech and vice versa).
Specification of controlled education, way of implementation and compensation for absences
Lectures are not compulsory, practice classes are compulsory.