eat 213 (hea 01) 2013
TRANSCRIPT
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UNVERSITI MALAYSIA PERLIS
BORANG PENAWARAN KURSUS BARU
Pusat Pengajian/Pusat : Kejuruteraan Alam Sekitar
(1) Kod kursus/ Course code: EAT 213
(2) Tajuk kursus/ Course title: Mekanik Bendalir dan Hidraulik/ Fluid Mechanics and Hydraulics
(3) Nilai unit/ Number of unit: 4
(4) Jenis kursus/ Course type: Teras/ Core
(5) Prasyarat/ Prerequisite:Tiada/ NIL
(6) Sinopsis kursus/ Course synopsis:
This course presents the study of the mechanics of water. In fluid mechanics, other fluids, including oil and
gasses are studied. The student will be taught about properties of fluids, fluid static and kinematics,
Bernoullis equation, momentum equation, analysis of flow in open channel and pipeline system. Thiscourse will also cover the transportation and metering of fluids such as pumps and turbines. At the end of
the course, students should be able to apply the theory to solve problem related to flow of fluids.
(7) Senarai eksperimen/ List of experiments:
Lab 1(a) - Properties of Fluid
Lab 1(b) - Flowmeter measurement apparatus
Lab 2 - Bernoullis theorem demonstrationLab 3 - Impact water jet
Lab 4 - Osbourne Reynolds demonstration unit
Lab 5 - Friction Loss Apparatus
(8) Pendekatan pembelajaran/ Learning approach: (sbg. contoh kuliah, seminar, amali, lawatan,
tutorial, dll. Sila nyatakan sekali bilangan jam)
i) Lecture: 42 hours (100%)
ii) Laboratory: 10 hours (20.0 %)
iii) Tutorial: 10 hours (20.0 %)
(9) Kali pertama penawaran kursus/ First time course offered:
1STSemester, Academic Session 2009/2010
HEA 012013/2014 Intake
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(10) Matriks hasil pembelajaran/ Course outcomes Matrix:
NotaHasil pembelajaran (course outcomes, CO) ialah jenis keupayaan (competencies) yang diharapkan dapat ditunjukkan oleh
pelajar setelah melalui kursus ini.
Note: Course outcomes, CO, are types of competencies which can be realised by the students after having this course.
Course Outcome (CO)Levelof
comple
xity
PO
1
PO
2
PO
3
PO
4
PO
5
PO
6
PO
7
PO
8
PO
9
PO
10
PO
11
PO
12
PO
13
PO
14
PO
15
Possible
Assessment
Domain C CP
CSP
PC
C
PCTPS
EM LLC
LSTS
EM ESC
EM CP
C
P
CEM
PC
CO1:
Ability to define and describe
the properties of fluidsC4
Assignment;
Laboratory;
Test;
Examination
CO2:
Ability to identify and analyse
some fluid static and fluid
dynamic theories and
applications
C4
Assignment;
Laboratory;
Test;
Examination
CO3:
Ability to describe and solve
problems related to fluid flow
in pipeline system
C4
Assignment;
Laboratory;
Test;
Examination
CO4:
Ability to describe and solve
problems related to fluid flow
in open channel system
C4
Assignment;
Laboratory;
Test;
Examination
Average
1- Leastrelevant is given if the outcome is only taught in lectures.2 - Moderaterelevance is given if the outcome have only taught and are either implemented in laboratory sessions or assessed by other means.
3- Substantial relevance is given if the outcome is taught in lecture, laboratories, and has proper assessment procedure.Nota: Hasil pembelajaran courseoutcome-CO) ialah jenis keupayaan (competencies) yang ditunjukkan oleh pelajar setelah melalui kursus ini
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(11) PanduanRancangan mengajar/ Teaching Plan Guide
Study
WeekCourse Content Delivery Mode
Level of
Complexity
Possible
Assessment
1
(Mr
Saiful)
CHAPTER 1Properties of Fluid
DEFINITION of a fluid.
IDENTIFYproperties of fluids (density, specific
gravity, viscosity, kinematic viscosity and surface
tension), pressure, force mass and weight, units and
conversion factors.
DESCRIBEdimensional analysis.
(3 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:ValuingLL1 Examination
Assignments
LabGroup A (Week 1) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, report
and oral
presentationTutorialGroup B (Week 1) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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2
(Mr
Saiful)
CHAPTER 2Fluid Statics
DEFINEbasic equation of fluid statics.
EXPLAINpressure-depth relationships, pressure
forces on surfaces.
DESCRIBE pressure measurement.
(3 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup B (Week 2) (2 hours) Laboratoryexperiment
C4:AnalysisP4:Mechanism
A3:Valuing
TS1, LS2
Laboratoryexperiment,
test, report
and oralpresentation
TutorialGroup A (Week 2) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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3
(Mr
Saiful)
CHAPTER 3Hydrostatic Force on Surfaces,
Buoyancy and Flotation
ANALYSEhydrostatic force exerted by a liquid on a
plane area and curved surface.DESCRIBEArchimedes principle, stability of
submerged and floating body.
DEFINEhydrostatic forces on dam.
(3 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Assignments
LabGroup A (Week 3) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, report
and oral
presentation
TutorialGroup B (Week 3) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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4
(Mr
Saiful)
CHAPTER 4- Fluid Dynamics
DEFINEContinuity Equation;
DERIVEof the Bernoullis Equation;DISCUSS application of Bernoullis Equation;CALCULATEflow meter measurements.
(3 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup B (Week 4) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratoryexperiment,
test, report
and oral
presentation
TutorialGroup A (Week 4) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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5
(Mr
Saiful)
CHAPTER 5Momentum Equation and its
Application
DEFINEMomentum and fluid flow;DERIVE of the momentum equation;
ANALYSE and CALCULATEthe force of impacts on:
Stationary plate, stationary curved vanes, pipe
bends, closed conduits and nozzles.
(3 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup A (Week 5) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, reportand oral
presentation
TutorialGroup B (Week 5) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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6-7
(Mr
Saiful)
CHAPTER 6Flow in Closed Conduits
INTRODUCE the flow of water under steady
condition.
DEFINEboth laminar and turbulent flows and
discusses head losses due to friction and flow
separation, in pipes flowing full. The emphasis will
be head loss due to friction in turbulent flow.
IDENTIFY Various equations for friction loss, friction
factor and Reynoldsnumber for laminar andturbulent flow; Moodys chart.
(6 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup B (Week 6) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, reportand oral
presentation
TutorialGroup A (Week 6) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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LabGroup A (Week 7) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratoryexperiment,
test, report
and oral
presentation
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Tutorial Group A (Week 7) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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8-9
(Ms
Amiza)
CHAPTER 7Complex Pipeline System
ANALYSIS of flow in pipelines.
ANALYSE andCALCULATE pipes in parallel, in series
and also of pipe networks, under steady conditions.
(6 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup B (Week 8) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, report
and oral
presentation
Tutorial Group A (Week 8) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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LabGroup A (Week 9) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratoryexperiment,
test, report
and oral
presentation
Tutorial Group B (Week 9) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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10-13
(Ms
Amiza)
CHAPTER 8Analysis of Flow in Open Channel
DESCRIBEflow in open channels;
CALCULATE hydraulic radius and Reynold number in
open channel;
DEFINE and ANALYSEuniform and non-uniform flow
in open channels; Determination of normal depths
by various methods;
DESCRIBE and ANALYSERapidly varied flow;
DEFINEThe Hydraulic jump: types and uses.
(9 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Examination
Assignments
LabGroup B (Week 10) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, report
and oralpresentation
TutorialGroup A (Week 10) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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LabGroup A (Week 11) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,test, report
and oral
presentation
TutorialGroup B (Week 11) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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LabGroup B (Week 12) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, reportand oral
presentation
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TutorialGroup A (Week 12) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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LabGroup A (Week 13) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, reportand oral
presentation
TutorialGroup B (Week 13) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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14
(Ms
Amiza)
CHAPTER 9Fluid Machinery
DESCRIBE the basics of pumps and turbines.
DISCUSScharacteristic curves and includes the
analysis of matching pump characteristics with
system demand in pipelines.
DESCRIBEturbines and their basic functions and
operations.
(6 hours)
Lecture;
Problem
Solving;
C4:Analysis
A3:Valuing
LL1
Assignments
LabGroup B (Week 14) (2 hours) Laboratory
experiment
C4:Analysis
P4:Mechanism
A3:Valuing
TS1, LS2
Laboratory
experiment,
test, reportand oral
presentation
TutorialGroup A (Week 14) (2 hours) Problem
Solving;
C4:Analysis
P4:Mechanism
A3:Valuing
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15 MINGGU ULANGKAJI / REVISION WEEK
16-20 PEPERIKSAAN AKHIR SEMESTER / FINAL
EXAMINATION
NOTA 1: POSSIBLE ASSESSMENT (Assessment mode can vary from semester to semester based on suitability)
Code Description
a Examinations and/or tests
b Laboratory experiment, test, report and oral presentation
c Design project, report (and oral presentation)
d Graduation project, dissertation and oral presentation
e Quiz
f Assignment
g Computer simulation
h Prototype development
i Class attendancej Industrial training report, oral presentation and UNIMAPs and host company supervisors evaluations
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Projek Untuk Pembelajaran Berasaskan Masalah (PBL)jika berkenaan
Problem-based learning (PBL) projects where relevant
Bil. Projek
NIL
(12) Sumbangan penilaian/ Evaluation contribution:
(i)
Peperiksaan/ Examination: 80%
Test 1 = 10%
Test 2 = 10%
Final Examination = 60%
(ii) Kerja kursus/course work: 20%
Laboratories = 10%
Assignments = 5%
Quizzes = 5%
(13) Tenaga pengajar terkini untuk penawaran kursus/Current Teaching staff for the course offered:
Lecturer:
1. En Saiful Azhar Saad
2. Cik Wan Amneera Bt Wan Ahmad
Teaching Engineer:
1. Pn Nurul Huda Hashim
2.
Pn Zuraini Mohd Ideris
(14) Jumlah pelajar yang dijangkakan untuk kali pertama penawaran kursus/ Number of students
expected during the first time course offered: 80 students
(15) Senarai buku teks dan rujukan/ List of text books and references : (Dahulukan dengan rujukan yang
utama/ list main texts/references first)
Text book:
1. Yunus, A.C., John, M.C., Fluid Mechanics: Fundamentals and Applications. McGraw Hill. (2010).
2.
Mott, R.L., Applied Fluid Mechanics. Prentice Hall. (2006).
3.
Young, D.F., Munson, B.R., Okiishi, T.H. & Huebsch, W.W., A Brief Introduction to Fluid Mechanics. WileyInterscience. (2007).
4. Landau L.D & Lifshitz, E.M., Fluid Mechanics. Elsevier. (2004)
5. Subramanya, K. Flow in Open Channels, McGraw Hill International Edition, (2000).
(16) Nota/ Notes(Catatkan di sini maklumat lain yang berkenaan mengenai kursus ini, sekiranya ada)
NIL
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(17) Tandatangan & Kelulusan/ Signatures & approvals
_______________ ____________________ __________________
(Pencetus) (Penolong Pendaftar (Dekan/Pengarah)
Nama : Pusat Pengajian/Pusat)
Tarikh : Tarikh: Tarikh :
_____________________________
(Dekan Pengurusan Akademik)
Tarikh :
Cop Rasmi: