# PROGRAMME LEARNING OUTCOME (PLO)

Μηχανική

24 Οκτ 2013 (πριν από 4 χρόνια και 8 μήνες)

116 εμφανίσεις

PROGRAMME LEARNING OUTCOME (PLO)

JJ309

FLUID MECHANICS

DIPLOMA
IN MECHANICAL ENGINEERING
(AGRICULTURE)

PLO

ITEM

1

Apply knowledge of mathematics, science and e
ngineering fundamentals to well
defined mechani
cal engineering procedures and
practices.

4

Apply creative and critical thinking in solving problem related to

9

Function individually or in teams, effectively, with a capability to be a leader

COURSE LEARNING OUTCOME (CLO)

J
J309

FLUID MECHANICS

CLO

ITEM

1

Explain clearly the
characteristics of fluid. (C2)

2

Solve problems correctly related to fluid properties, fluid statics and fluid
dynamics.(C3)

3

Explain the theory of fluid mechanics related to engineering field in group.(A4)

RANCANGAN
MENGAJAR

SEMESTER

NAMA PENSYARAH KURSU
S

:
IB

SESI

:
DIS

201
2

JABATAN

: KEJURUTERAAN MEKAN
IKAL

PROGRAM

:
D
KM
3
A

KOD & NAMA KURSUS

:
JJ
309

FLUID MECHANICS

WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

1

16/06
/1
3

20
/
06
/1
3

Pendaftaran pelajar dan Minggu Suaikenal

2

23
/
06
/1
3

2
7
/
06
/1
3

Introduction to JJ
309
:
-

Synopsis and
objectives of the course

Topic and contents

Evaluations

Assignments

References

1.0 F
LUID AND PROPERTIES

1.1
Understand Fluid

1.1.1

Define fluid

1.1.2

Described fluid terms

1.1.3

Compare
the
characteristic liquid,
gas and solid

1
.2
Illustrate types of

pressure gauges

1.2.1 Define

a. Atmospheric pressure

b.
Gauge pressure

c.
Absolute pressure

d.
Vacuum

pressure

1.2.2

Solve problems related to

pressure gauges

CLO1

CLO2

CLO3

PLO1
PLO9

Interactive
lecture, Lecture,
Self Directed
learning and PBL

1

H
-
Theory

1 H
-
Tutorial

Student Study Guide

COURSE ENTRANCE
SURVEY

WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

3

30
/
06
/1
3

0
7

/
0
7
/1
3

1.
3

Apply

physical properties of

fluid

1.
3.1 Define

a.
Mass density

and relative density

b.
Specific weight and specific

volume

c.
Fluid compressibility

d.
Viscosity

1.3.2 Solve problems related to

Physical properties of fluid

CLO1

CLO2

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1

H
-
Theory

1

H
-
T
utorial

Case Study
-
High

(CLO1, PLO
4,
PLO9
)

students are given

a
case study

in a group

(
4

persons

/

group
)
and

to
submit

within a

2
week

4

0
7
/
0
7
/1
3
-

1
1
/
0
7
/1
3

2.0
FLUID STATICS

2.1

Show relationship between pressure
and depth

2.1.
1

Write basic equation based on
relationship
pressure and depth

2.1.
2

Describe pressure at same and

deferent depths

2.
1
.
3

Solve problems related to
relationship between pressure and
depth

CLO1

CLO2

CLO3

PLO1
PLO9

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

Quiz
1
-

Low
(CLO1,PLO1)

students are given

a set
of

Quiz 1

question

5

1
4
/
0
7
/1
3
-

1
8
/
0
7
/1
3

2.2

Apply Pascal’s Law and hydraulic

Jack

2.2.1 State Pascal’s Law

2.2.2

Describe hydraulic Jack

2.2.3 Solve problems regarding Pascal’s

Law and hydraulic Jack

CLO1

CLO2

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

6

2.3
Apply concept of Manometer, piezometer,

Barometer.

CLO1

Question
&

Interactive

End of Chapter

students are given

a set
WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

2
1
/
0
7
/1
3

2
5
/
0
7
/1
3

2.3.1 Explain concept manometer
piezometer,Barometer.

2.3.2 Solve problems regarding manometer

a. Simple U
-
Tube manometer

b. Differential U
-
Tube manometer

c. Inverted U
-
Tube manometer

CLO2

CLO3

lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

1

Medium
(CLO2, PLO1)

of

End of Chapter 1

question

7

2
8
/
0
7
/1
3

0
1
/
0
8
/1
3

2.3.3 Solve problems regarding piezometer

and Barometer

2.4 Explain concept of a bourdon gauge

2.4.1 Sketch important parts of bourdan
gauge

2.4.2 Explain mechanism of bourdan gauge

2.5 Understand concept of buoyancy

2.5.1 Define buoyancy force

2.5.2 Solve problems related to buoyancy

force

CLO1

CLO2

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

TEST 1

(CLO2, PLO1)

students are given

a set
of

Test 1

questions

04/08
/1
3

08
/
08
/1
3

CUTI KHAS PERAYAAN

Hari
Raya Aidil Fitri

(08
-
09/08/13)

8

11
/
0
8
/1
3

15
/
0
8
/1
3

3.0 FLUID DYNAMICS

3.1 Describe difference types of flow

3.1.1 Define types of flow

a. Uniform flow

d. laminar flow

e. Turbulent flow

3.2 Describe flow rate

3.2.1 Define volume flow rate and mass flow
rate

3.2.2 Find volume flow rate and mass flow
rate

CLO1

CLO2

CLO3

PLO1
PLO9

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

Quiz 2
-

Low

(CLO1, PLO1)

students are given

a set
of

Quiz 2

questions

WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

9

1
8
/
0
8
/1
3

2
2
/
0
8
/1
3

3.3 Apply continuity equation law

3.3.1 State continuity equation

law

3.3.2 Solve problems related to continuity

equation in single and branch

pipe

CLO1

CLO2

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

10

2
5
/
0
8
/1
3

2
9
/
0
8
/1
3

3.4 Apply Bernoulli’s Theorem

3.4.1 State the Bernoulli’s Theorem

3.4.2 State the limits of Bernoulli’s

Theorem

3.4.3 Solve problem related to Bernoulli
Theorem in;

a.

Horizontal pipes

b.

Incline pipes

c.

Horizontal venturi meter

d.

Incline venturi meter

e.

Orifice Meter

f.

Pitot Tube

3.4.4 Illustrate the important parts

venturi meter

CLO1

CLO2

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

End of Chapter
2

Medium
(CLO2, PLO1)

students are given

a set
of

End of Chapter 2
questions

11

0
1
/
0
9

/1
3

-

0
5
/
0
9
/1
3

4.0 ENERGY LOSS IN PIPELINES

4.1
Explain the round pipe system

4.1.1 Sketch the velocity distribution

diagram in the round pipe system

CLO1

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

12

08
/
0
9

/1
3

-

1
2
/
0
9
/
13

4.1.2 Explain the velocity distribution in the

Round pipe system

CLO1

CLO3

PLO1
PLO9

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

Test 2

Medium
(CLO2, PLO1)

students are given

a set
of

Test 2

questions

13

1
5
/
0
9
/1
3

19
/
0
9
/1
3

4.2 Trace the head loss in pipelines

4.2.1 Analyze head loss caused by;

a. Sudden enlargement and contraction

b. Friction

c. At the sharp inlet

d. At the outlet

CLO1

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

14

2
2
/
0
9
/1
3
-
2
6
/
0
9
/1
3

4.2.2 Explain flow criteria at inlet and

Outlet

4.2.3 Solve horizontal and

Inclined pipelines problem

CLO1

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

End of Chapter
3

Medium
(CLO1, PLO1)

students are given

a set
of

End of Chapter 3
questions

15

29
/
0
9
/1
3
-
0
3
/
1
0
/1
3

5
.0
NOZZLE

5
.1
Explain nozzles in engineering field

5
.1.1
Explain nozzles uses in engineering

Field

a.

Steam turbine

b.

Gas turbine

CLO1

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

WEEK
/

DATE

TOPIC AND SPECIFIC OUTCOMES

CLO

PLO

TEACHING
&

LEARNING
ACTIVITIES

ASSESSMENT

DATE

OF

IMPLEMENTATION

KPI
/

NOTES

16

0
6
/
1
0
/1
3
-

1
0
/
1
0
/1
3

c.

Jet turbine

d.

Flow measurement

e.

Rocket propulsion

f.

Steam injector Injectors

g.

Injecter

5.1.2 Explain the type of nozzles

5.1.3 Sketch shape of nozzles

CLO1

CLO3

PLO1
PLO9

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utoria
l

17

1
3
/
1
0
/1
3
-

1
7
/
1
0
/1
3

5.1.4 Define “critical pressure ratio” for
nozzle

5.1.5 Solve problems regarding to

maximum mass flow rate in the
nozzles

5.1.6 Solve problems related to nozzle

5.2 Discuss the current technology of nozzle
application

CLO1

CLO3

Question
&

Interactive
lecture
,

Lecture,
Self Directed
learning and PBL

1
H
-
Theory

1

H
-
T
utorial

COURSE EXIT SURVEY

18

& 19

2
0
/
1
0
-

31
/
1
0
/1
3

FINAL
EXAMINATION

1
0
/
11

-

2
1/
11
/1
3

SEMESTER BREAK

Prepared by

:

Approved by

:

……………………
……….......

..................................................
...................

(
)

(
Signature of

PENGARAH /TP/KJ/KP/KU)

Date :

Date

: