Title:  Selected Parts from Mathematics 1 

Code:  IVP1 (FEKT BVPA) 

Ac.Year:  2017/2018 

Term:  Summer 

Curriculums:  

Language of Instruction:  Czech 

Credits:  5 

Completion:  examination (written) 

Type of instruction:  Hour/sem  Lectures  Seminar Exercises  Laboratory Exercises  Computer Exercises  Other 

Hours:  39  0  0  0  13 

 Exams  Tests  Exercises  Laboratories  Other 

Points:  70  30  0  0  0 



Guarantor:  ©marda Zdeněk, Doc. RNDr., CSc. (DMAT) 

Lecturer:  ©marda Zdeněk, Doc. RNDr., CSc. (DMAT) 
Faculty:  Faculty of Electrical Engineering and Communication BUT 

Department:  Department of Mathematics FEEC BUT 


Learning objectives: 

  The aim of this course is to introduce the basics of theory and calculation methods of local and absolute extrema of functions of several variables, double and triple integrals, line and surface integrals including applications in technical fields. Mastering basic calculations of multiple integrals, especialy tranformations of multiple integrals and calculations of line and surface integrals in scalarvalued and vectorvalued fields. of a stability of solutions of differential equations and applications of selected functions with solving of dynamical systems. 
Description: 

  The aim of this course is to introduce the basics of calculation of local, constrained and absolute extrema of functions of several variables, double and triple inegrals, line and surface integrals in a scalarvalued field and a vectorvalued field including their physical applications. In the field of multiple integrals , main attention is paid to calculations of multiple integrals on elementary regions and utilization of polar, cylindrical and sferical coordinates, calculalations of a potential of vectorvalued field and application of integral theorems. 
Knowledge and skills required for the course: 

  The student should be able to apply the basic knowledge of analytic geometry and mathamatical analysis on the secondary school level: to explain the notions of general, parametric equations of lines and surfaces and elementary functions. From the IDA and IMA courses, the basic knowledge of differential and integral calculus and solution methods of linear differential equations with constant coefficients is demanded. Especially, the student should be able to calculate derivative (including partial derivatives) and integral of elementary functions. 
Learning outcomes and competences: 

  Students completing this course should be able to:
 Calculate local, constrained and absolute extrema of functions of several variables.
 calculate multiple integrals o, elementary regions,
 transform integrals into polar, cylindrical and sferical coordinates,
 calculate line and surface integrals in scalarvalued and vectorvalued fields,
 apply integral theorems in the field theory.

Syllabus of lectures: 

  Differential calculus of functions of several variables, limit, continuity, derivative
 Vector analysis
 Local extrema
 Constrained and absolute extrema
 Multiple integral
 Transformation of multiple integrals
 Applications of multiple integrals
 Line integral in a scalarvalued field.
 Line integral in a vectorvalued field.
 Potential, Green's theorem
 Surface integral in a scalarvalued field.
 Surface integral in a vectorvalued field.
 Integral theorems.

Fundamental literature: 

  ©MARDA, Z., RU®IČKOVÁ, I.: Vybrané partie z matematiky, el. texty na PC síti.
 KRUPKOVÁ, V.: Diferenciální a integrální počet funkce více proměnných,skripta VUT Brno, VUTIUM 1999, 123 p.
 BRABEC, J., HRUZA, B.: Matematická analýza II, SNTL/ALFA, Praha 1986, 579 p.
 GARNER, L.E.: Calculus and Analytical Geometry. Brigham Young University, Dellen publishing Company, San Francisco,1988, ISBN 0023405902.

Controlled instruction: 

  Teaching methods include lectures and demonstration practical classes. Course is taking advantage of exercise bank and maplets on UMAT server. The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year. 
Progress assessment: 

  The student's work during the semestr (written tests and homework) is assessed by maximum 30 points. Written examination is evaluated by maximum 70 points. It consist of seven tasks (one from extrema of functions of several variables (10 points), two from multiple integrals (2 X 10 points), two from line integrals (2 x 10 points) and two from surface integrals (2 x 10 points)). 
