Course syllabus FZTT - Physical Principles of Engineering Technologies (ILE - SS 2019/2020)


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Course code: FZTT
Course title in language of instruction: Fyzikální základy techniky
Course title in Czech: Physical Principles of Engineering Technologies
Course title in English: Physical Principles of Engineering Technologies
Mode of completion and number of credits: Exam (5 credits)
(1 ECTS credit = 28 hours of workload)
Mode of delivery/Timetabled classes: full-time, 2/2 (hours of lectures per week / hours of seminars per week)
part-time, 18/0 (lectures per period / seminars per period)
Language of instruction: Czech
Level of course: bachelor
Semester: SS 2019/2020
Name of lecturer: doc. RNDr. Ivo Křivánek, CSc. (examiner, instructor, lecturer, supervisor)
doc. Ing. Tomáš Vítěz, Ph.D. (examiner, instructor, lecturer)
Prerequisites: to study at faculty ICV
 
Aims of the course:
The students are trained and get familiarize with basic and technical terminology, with physical processes and possible use of general knowledge in physical and technical area. The physical fundaments of practical and technological problems and processes are introduced. The students learn how to operate different measuring and experimental devices and how to perform technical measurements. Solving of typical and practical technical problems is presented.
 
Course contents:
1.Definition of the course. (allowance 2/2)
 
a.Basic terminology
b.Basic and derived physical qualities

2.Main physical quantities.International system of physical units. Vectors and scalars. Selected problems of mass particle motion (allowance 2/2)
 
a.Basic terminology
b.Basic and derived physical qualities
c.Motion in straight line

3.Measuring, Technical terminology (allowance 2/2)
4.Dynamics of mass particle.Systems of particles. (allowance 2/2)
 
a.Newton`s laws of motion
b.Collisions of bodies

5.Physical conditions and processes. (allowance 2/2)
 
a.Energy
b.Work

6.Energetic transformations. (allowance 2/2)
7.Hydraulic mechanisms. (allowance 2/2)
 
a.Fundamentals of hydrostatics
b.Fundamentals of hydrodynamics

8.Viscosity. The main real fluids. (allowance 2/2)
 
a.Viscosits of fluid and gases

9.Thermodynamics of ideal gases. (allowance 2/2)
 
a.The efficiency of heat engines

10.Kinetic theory of gases. (allowance 2/2)
11.Vapours (allowance 2/2)
 
a.Development of vapours.
b.Moist air
c.Basic variables and quantities of different physical processes

12.Basic reversible process and irreversible cycle. (allowance 2/2)
13.Fluids. (allowance 2/2)
14.Optics. (allowance 2/2)
 
a.Geometrical optics
b.Reflections and Refractions
c.Photometry

 
Learning outcomes and competences:
Generic competences:
 
-Ability to analyse and synthesize
-Ability to apply knowledge
-Ability to solve problems
-Basic computing skills
-Capacity to learn
-Interpersonal skills

Specific competences:
 
-Ability for assessment of technical and environmental safety of control systems
-Acquiring skills in computer data processing
-Capability of independent analysis of simple problems in elementar electrotechnics and modern physics
-Create exactly reasoned findings on the basis of analysis of theoretic knowledge and skills, which are usable in technical subjects study
-Knowledge of the physical properties of fluids in motion and at rest

Type of course unit: required
Year of study: Not applicable - the subject could be chosen at anytime during the course of the programme.
Work placement: There is no compulsory work placement in the course unit.
Recommended study modules: -
 
Learning activities and study load (hours of study load):
Type of teaching methodDaily attendanceCombined form
Direct teaching
     lecture28 h18 h
     practice28 h0 h
     laboratory work32 h0 h
     professional educational excursion0 h5 h
     consultation10 h30 h
Self-study
     preparation for exam22 h55 h
     preparation for regular testing0 h18 h
     preparation of presentation0 h14 h
     elaboration of reports20 h0 h
Total140 h140 h
 
Assessment methods:
Credit, Examination. Credit is obtained after success in writen tests and success in defense of 10 laboratory protocols.
Protocol defence is focused on teoretical and formal correctness and demonstration of practical and theoretical skills and knowledges. Are written every week and are focussed on talked over topics. Examination is oral, student draws 2-3 questions, depends on writen laboratory protocols. One question is focused on solution of given theoretical problem.
 
Recommended reading:
TypeAuthorTitlePublished inPublisherYearISBN
RQKŘIVÁNEK, I. -- FILÍPEK, J.FYZIKA vybrané částiBrnoMendelova univerzita v Brně2011978-80-7375-533-1
RQBARTOŇ, S.Fyzika I v řešených příkladechBrnoMendelova univerzita v Brně2011978-80-7375-559-1
RQGRODA, B. -- VÍTĚZ, T.Mechanika tekutin IMendelova zemědělská a lesnická univerzita v Brně2009978-80-7375-283-5
RQHALLIDAY, D. -- RESNICK, R. -- WALKER, J. -- LENCOVÁ, B. -- OBDRŽÁLEK, J. -- DUB, P.Fyzika: vysokoškolská učebnice obecné fyzikyBrnoVUTIUM ;200080-214-1868-0
RQBUCHAR, J. -- SEVERA, L.Fyzika IBrnoMendelova zemědělská a lesnická univerzita v Brně199980-7157-382-5
RQFILÍPEK, J. -- BARTOŇ, S. -- KŘIVÁNEK, I. -- SEVERA, L.Animované laboratorní cvičení z fyzikyMZLU Brno978-80-7375-284-2
RQKUMBÁR, V. -- BARTOŇ, S. -- KŘIVÁNEK, I.Fyzikální praktikumBrnoMendelova univerzita v Brně2015978-80-7509-335-6

RQrequired
RErecommended


Last modification made by Josef Schmied, DiS. on 12/06/2019.

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