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Course detail

Mathematics II-B

Course unit code: FSI-BM
Academic year: 2016/2017
Type of course unit: compulsory
Level of course unit: Bachelor's (1st cycle)
Year of study: 1
Semester: summer
Number of ECTS credits:
Learning outcomes of the course unit:
Students will acquire basic knowledge of mathematical disciplines listed in the course annotation and will be made familiar with their logical structure. They will learn how to solve mathematical problems encountered when dealing with engineering tasks using the knowledge and skills acquired.
Mode of delivery:
90 % face-to-face, 10 % distance learning
Differential and integral calculus of functions in one variable.
Not applicable.
Recommended optional programme components:
Not applicable.
Course contents (annotation):
The course takes the form of lectures and seminars dealing with the following topics:
Real functions of two and more variables, Partial derivatives - total differentials, Applications of partial derivatives - maxima, minima and saddle points, Lagrange multipliers, Taylor's approximation and error estimates, Double integrals, Triple integrals, Applications of multiple integrals.
Recommended or required reading:
Sneall, D. B., Hosack, J. M.: Calculus, An Integrated Approach, , 0
Rektorys, K. a spol.: Přehled užité matematiky I,II, , 0
EIiáš, J., Horváth, J., Kajan, J.: Zbierka úloh z vyššej matematiky , , 0
Fichtengolc, G. M.: Kurz differencialnogo isčislenija, , 0
Thomas G.B., Finney R.L.: Calculus and Analytic Geometry (7th edition)
Planned learning activities and teaching methods:
The course is taught through lectures explaining the basic principles and theory of the discipline. Exercises are focused on practical topics presented in lectures.
Assesment methods and criteria linked to learning outcomes:
COURSE-UNIT CREDIT REQUIREMENTS: There are two written tests (each at most 12 points) within the seminars and a semestral work from the computer support (at most 1 point).
The student can obtain at most 25 points alltogether within the seminars. Condition for the course-unit credit: to obtain at least 6 points from each written test. Students, who do not fulfil conditions for the course-unit credit, can repeat the written test during first two weeks of examination time.

The exam has an obligatory written part.
In a 120-minute written test, students have to solve the following three problems:
Problem 1: In differential calculus of functions of several variables.
Problem 2: In double integral.
Problem 3: In tripple integral.
Above problems can also contain a theoretical question.

1. Results from seminars (at most 25 points)
2. Results from the written examination (at most 75 points)

Final classification:
0-49 points: F
50-59 points: E
60-69 points: D
70-79 points: C
80-89 points: B
90-100 points: A
Language of instruction:
Work placements:
Not applicable.
Course curriculum:
Not applicable.
Differential and integral calculus of functions of several variables including problems of finding maxima and minima and calculating limits, derivatives, differentials, double and triple integrals. At seminars, the MAPLE mathematical software is used.
The course aims to acquaint the students with the theoretical basics of the above mentioned mathematical disciplines necessary for further study of engineering courses and for solving engineering problems encountered. Another goal of the course is to develop the students' logical thinking.
Specification of controlled education, way of implementation and compensation for absences:
Attendance at lectures is recommended, attendance at seminars is required. The lessons are planned on the basis of a weekly schedule. Missed seminars may be made up by the agreement with the teacher supervising the seminar.

Type of course unit:

Lecture: 26 hours, optionally
Teacher / Lecturer: doc. RNDr. Jiří Tomáš, Dr.
Syllabus: 1. Function in more variables, basic definitions.
2. Limit of a function in more variables, continuous function.
3. Partial derivative, gradient of a function, derivative in a direction.
4. First-order and higher-order differentials, tangent plane to the graph of a function in two variables, Taylor polynomial.
5. Relative maxima and minima.
6. Lagrange multipliers, absolute maxima and minima.
7. Functions defined implicitly.
8. Definite integral more variables, definition, basic properties.
9. Computing of the integrals using rectangular coordinates.
10. Calculation on elementary (normal) area's, Fubini's theorem.
11.The Jacobian and change of coordinates, transformation of the integrals, polar coordinates.
12.Cylindrical and spherical coordinates.
13.Applications of double and triple integrals.
seminars: 22 hours, compulsory
Teacher / Lecturer: doc. RNDr. Jan Čermák, CSc.
Mgr. Jana Hoderová, Ph.D.
Ing. Tomáš Holec
RNDr. Ludmila Chvalinová, CSc.
RNDr. Jiří Klaška, Dr.
Mgr. Jiří Kratochvíl
Mgr. Aleš Návrat, Ph.D.
Ing. Barbora Navrátilová
Ing. Jan Šútora
doc. RNDr. Jiří Tomáš, Dr.
Mgr. Petr Vašík, Ph.D.
Syllabus: The first week: calculating improper integrals, applications of the Riemann integral. Following weeks: seminars related to the lectures given in the previous week.
seminars in computer labs: 4 hours, compulsory
Teacher / Lecturer: prof. RNDr. Miroslav Doupovec, CSc., dr. h. c.
Syllabus: Seminars in a computer lab have the programme MAPLE as a computer support. Obligatory topics to go through: Plotting of the graph of a function of more variables (given by explicit, implicit or parametric equations), extrema of functions of more variables.

The study programmes with the given course