MODULE DESCRIPTION Modue code Modue name Modue name in Engish Vaid from academic year 2014/2015 MODULE PLACEMENT IN THE SYLLABUS Mechanika Płynów Fuid Mechanics Subject Leve of education Studies profie Form and method of conducting casses Speciaisation Unit conducting the modue Modue coordinator Mechanics and Machine Design 1st degree (1st degree / 2nd degree) Genera (genera / practica) Futime (futime / parttime) A The Department of Mechanics Robert Pastuszko, PhD hab., Eng. Approved by: MODULE OVERVIEW Type of subject/group of subjects Modue status Language of conducting casses Modue pacement in the syabus semester Subject reaisation in the academic year Initia requirements Examination Number of ECTS credit points 3 Method of conducting casses Basic (basic / major / speciaist subject / conjoint / other HES) Compusory (compusory / noncompusory) Engish 4 th semester Summer semester (winter / summer) Mathematics and Physics (modue codes / modue names) No (yes / no) Lecture Casses Laboratory Project Other Per semester 15 15 15 TEACHING RESULTS AND THE METHODS OF ASSESSING TEACHING RESULTS a. Tysiącecia Państwa Poskiego 7 25314 Kiece te. 413424209, emai: d.siwinska@tu.kiece.p Projekt,,Poitechnika Świętokrzyska uczenia na miarę XXI w. na podstawie umowy z Ministerstwem Nauki i Szkonictwa Wyższego UDA POKL.04.01.0100381/1000
Modue target The aim of the modue is to famiiarise students with physica phenomena connected with fuid statics, kinematics, and dynamics. Another aim is to acquaint students with the abiity of anaysing the fow system in open and cosed pipes and soving technoogica probems on the basis of fuid mechanics aws. Effect symbo Teaching resuts Teaching methods (/c//p/other) to subject effects to effects of a fied of study W_03 U_03 A student has basic knowedge on basic properties of fuids; a student aso knows the differences between idea and rea fuids. A student has basic knowedge on fuid statics; moreover, a student knows basic equation of statics; a student knows the instruments for measuring pressure; a student has eementary knowedge on determining hydrostatic thrust; moreover, a student understands the differences between absoute pressure, negative pressure and overpressure; finay, a student is knowedgeabe about reative equiibrium. A student knows basic notions of fuid kinematics; a student is knowedgeabe about equations of continuity. A student is famiiar with the methods of determining fow rate, mass and capacity fow rate; moreover, a student is famiiar with: Euer and Bernoui equations, the methods of determining pressure osses during the fow of viscous fuid; a student aso has eementary knowedge as regards the dynamics of gasses and fows around soid bodies by viscous fuids. A student is capabe of determining fuid capacity, viscosity, or density at pressure and temperature change. A student can utiise Pasca s aw to cacuate force increase in a hydrauic system; additionay, a student is capabe of cacuating hydrostatic pressure in cosed containers and appying the equation of fuid equiibrium. A student is abe to determine mass and capacity fow rates; furthermore, a student is capabe of appying the equation of continuity to cacuate fow rate in pipeine segments; finay, a student is c/ c c/ a. Tysiącecia Państwa Poskiego 7 25314 Kiece te. 413424209, emai: d.siwinska@tu.kiece.p Projekt,,Poitechnika Świętokrzyska uczenia na miarę XXI w. na podstawie umowy z Ministerstwem Nauki i Szkonictwa Wyższego UDA POKL.04.01.0100381/1000
U_04 capabe of determining the Reynods. A student can appy the Bernoui equation to cacuate veocity and pressure at idea fuid fow in a cosed system. A student can cacuate pressure and fow rate osses concerning a viscous fuid in a cosed system. A student is aware of the impact of fuid storage and transport method on the natura environment. A student can work in a team whie taking measurements and anaysing resuts; a student aso compies with the principes of teamwork. c c/ /c/ K_K02 K_K03 K_K04 T1A_K02 InzA_K01 T1A_K03 T1A_K04 : as regards ectures Lecture 1 Introduction to fuid mechanics. Rea and idea fuids. The properties of fuids. 2 Forces interacting with fuids. 2 Fuid statics. Basic equation of fuid statics. The equation of fuid equiibrium in a threedimensiona system. The height of fuid coumn as the measure of static pressure. Pressure measurement. Overpressure, negative pressure, and absoute pressure. Pasca s aw. 3 Manometers. Hydrostatic thrust on surfaces submerged in fuid. Stevin s paradox. Communicating vesses. Reative equiibrium in straightine motion and in a rotating vesse. 4 Archimedes principe. The equiibrium of foating soids. Static equiibrium of compressibe fuids. The kinematics of fuids basic notions. The description of fuid motions. The equation of fiament continuity. The cassification of fows. Stationary fow. 5 The dynamics of fuids Euer s equation of motion. Bernoui s equation. The appications of Bernoui s equation. Fuid rate measurement with the use of pressure tubes. 6 Bernoui s equations for rea fuids. Dynamic equations of viscous fuid (NavierStokes). Fows in cosed pipes. The HagenPoiseuie aw. Laminar and turbuent fows. Critica Reynod s. Linear and oca osses. resuts for a modue W_03 U_03 U_04 a. Tysiącecia Państwa Poskiego 7 25314 Kiece te. 413424209, emai: d.siwinska@tu.kiece.p Projekt,,Poitechnika Świętokrzyska uczenia na miarę XXI w. na podstawie umowy z Ministerstwem Nauki i Szkonictwa Wyższego UDA POKL.04.01.0100381/1000
7 The simiarities of fow phenomena The Coriois coefficient. Pipes with a constant section typica issues at cacuating pipeines. Fows in open channes. 8 The concept of a boundary ayer. The fow around soid bodies by viscous fuids. An outine of gas dynamics. as regards casses Cass resuts for a modue 1 Physica properties of fuids: mass and density. 2 Physica properties of fuids: compressibiity and expandabiity. 3 Physica properties of fuids: viscosity. 4 Hydrostatic pressure. Hydrostatic equiibrium. 5 Mass and capacity fow. The equiibrium of fiament continuity. U_03 6 Bernoui s equation for an idea fuid. U_03, U_04 7 Bernoui s equation for a rea fuid. U_03, as regards aboratory casses Laboratory cass 1 Any other business. Requirements concerning obtaining a credit. Famiiarising students with OHS and fire protection reguations in the Fuid Mechanics Laboratory. The principes of preparing experimenta data. resuts for a modue 2 The measurement of static stresses in a fuid. 3 Reative equiibrium of a iquid. 4 Fow visuaisation Reynods critica. U_03 5 Determining the coefficient of inear osses in a cosed pipe. U_03 6 Determining the coefficient of oca osses at water fow in a pipe. U_03 7 Determining the characteristic of a fuidfow machine. U_03 The methods of assessing teaching resuts Effect symbo Methods of assessing teaching resuts (assessment method, incuding skis reference to a particuar project, aboratory assignments, etc.) An openanswer test. Written tests on aboratory casses. A discussion during audit and aboratory casses; observing a student s invovement during the casses. STUDENT S INPUT a. Tysiącecia Państwa Poskiego 7 25314 Kiece te. 413424209, emai: d.siwinska@tu.kiece.p Projekt,,Poitechnika Świętokrzyska uczenia na miarę XXI w. na podstawie umowy z Ministerstwem Nauki i Szkonictwa Wyższego UDA POKL.04.01.0100381/1000
Type of student s activity ECTS credit points Student s workoad 1 Participation in ectures 15 2 Participation in casses 15 3 Participation in aboratories 15 4 Participation in tutorias (23 times per semester) 5 5 Participation in project casses 6 Project tutorias 7 Participation in an examination 8 Participation in a fina test on aboratory casses 9 Number of hours requiring a ecturer s assistance 50 (sum) 10 Number of ECTS credit points which are aocated for assisted work (1 ECTS credit point=2530 hours) 2 11 Unassisted study of ecture subjects 7 12 Unassisted preparation for casses 7 13 Unassisted preparation for tests 5 14 Unassisted preparation for aboratory casses 10 15 Preparing reports 13 16 Preparing for a fina test on aboratory casses 5 17 Preparing a project or documentation 18 Preparing for an examination 19 Preparing questionnaires 20 Number of hours of a student s unassisted work 47 (sum) 21 Number of ECTS credit points which a student receives for unassisted work (1 ECTS credit point=2530 hours) 22 Tota of hours of a student s work 97 23 ECTS credit points per modue 1 ECTS credit point=2530 hours 3 24 Work input connected with practica casses Tota of hours connected with practica casses 25 Number of ECTS credit points which a student receives for practica casses (1 ECTS credit point=2530 hours) 1 a. Tysiącecia Państwa Poskiego 7 25314 Kiece te. 413424209, emai: d.siwinska@tu.kiece.p Projekt,,Poitechnika Świętokrzyska uczenia na miarę XXI w. na podstawie umowy z Ministerstwem Nauki i Szkonictwa Wyższego UDA POKL.04.01.0100381/1000