student-guide-jkm-dis-2013.pdf
TRANSCRIPT
MECHANICAL ENGINEERING DEPARTMENT
2
3
No ITEMS PAGE
1. Preface 4
2. Management Board of Politeknik Muadzam Shah 6
3. Vision and Mission 7
4. Introduction to Outcome Based Education (OBE) 8
5. Department of Mechanical Engineering
5.1 Background Department of Mechanical Engineering 14
5.2 Mechanical Engineering Department Organization 15
5.3 Staff Information 16
5.4 Laboratory Facilities 23
6. Diploma in Mechanical Engineering (Automation)
6.1 Synopsis 27
6.2 Programme Educational Objectives 28
6.3 Programme Learning Outcome 29
6.4 Job Prospect 30
6.5 Programme Structures 31
7. Diploma in Mechanical Engineering (Product Design)
7.1 Synopsis 35
7.2 Programme Educational Objectives 36
7.3 Programme Learning Outcome 37
7.4 Job Prospect 38
7.5 Programme Structures 39
8. Diploma in Mechanical Engineering (Automotive Manufacturing Design)
8.1 Synopsis 43
8.2 Programme Educational Objectives 44
8.3 Programme Learning Outcome 45
8.4 Job Prospect 46
8.5 Programme Structures 47
9. Supporting Departments 51
10. Synopsis & Course Learning Outcome (CLO) for all courses 52
11 Student Facilities 78
12 Studies Information 84
13 Industrial Training 90
14 Other facilities 92
15 Activities Notes & Campus Area 94
Table of Contents
4
Bismillahirrahmanirrahim
Assalamualaikum and Salam 1 Malaysia.
Dear Students,
Welcome to our beautiful and cosy campus of Politeknik Muadzam Shah
(PMS). Our students come from all walks of life and various backgrounds. It
is our commitment at PMS to help you, as an adult learner, succeed in up-
grading yourself and achieve the right balance holistically.
The world faces dynamic changes in technology and business at amazing speed. To sustain our
economy, the Malaysian workforce needs to continuously upgrade itself to acquire new skills and
knowledge so as to stay relevant. Striking a good balance between your studies and co-curricular
activities, I do believe that PMS will broaden your views about tertiary education and guide you to
enhance your future career.
The rapid changes around the globe demands educational institutions to be dynamic and respon-
sive towards the technological changes around the world. To accommodate such requirement,
the courses offered by the Mechanical Engineering, Commerce, Information Technology & Com-
munication, , Design & Visual Communication as well as Tourism & Hospitality Departments.
PMS are designed to produce graduates who are creative, innovative and possess towering per-
sonality. In order for PMS to achieve its intended target, we have well-trained lecturer whom are
able to assist and facilitate the students in their learning as well as their holistic education.
We are so pleased that you are here. Best wishes and welcome to PMS !
WAN MUHAMMAD AFIFI BIN. WAN ABDULLAH
Director
Politeknik Muadzam Shah
PREFACE
Politeknik Muadzam Shah
5
PREFACE
Politeknik Muadzam Shah
Bismillahirrahmanirrahim
Assalamualaikum and Salam 1 Malaysia.
Dear Students,
Welcome to Mechanical Engineering Department of Politeknik Muadzam
Shah (PMS). I wish you a successful and enjoyable campus life.
This student guide book had been prepared for the current and prospective for
mechanical engineering department students. It outlines the knowledge, skills
and outcomes of all the programmes curriculum develops for its graduates. Currently, we offer
Diploma Mechanical Engineering (Product Design) -DRP, Diploma Mechanical Engineering
(Automation)-DMA and Diploma Mechanical Engineering (Automotive Manufacturing Design)-
DRA. In order for the students to graduate, the four categories of courses are to be completed –
compulsory, common core, discipline and elective. We also provide the necessary facilities such
as Laboratory Lab, Welding Workshop, fitting and Machining workshop and others. Besides we
also have support Centre ,Wi-Fi connections and Library to realize the learning potential of stu-
dents.
Mix around with everyone in the campus. A good relationship is when someone accepts your
past, supports your present and encourages your future. Campus life is full of ups and downs,
fasten your seatbelts as turbulence at anytime. Your weakness can become your strength. Help
yourself by boosting your good qualities.
All the lecturers look forward in seeing all you and we hope that your presence here will make
Mechanical Engineering Department more interesting and lively. We believe that you are able to
contribute to the better image and excellence of the department. Studying in PMS will be one of
the most exciting and memorable time in your life. Good Luck !
MOHD FUAAD BIN FESUL
Head of Mechanical Engineering Department
Politeknik Muadzam Shah
6
MANAGEMENT BOARD
Politeknik Muadzam Shah
7
VISION
To be Malaysia’s number one provider of an innovative human capital
through transformational education and training for the global
workforce for 2015.
MISSION
Breaking boundaries for the creation of transformative and creative
learning environment for an innovation-led economy.
VISION
The preferred polytechnic that generates human capitals through holistic
education and training to fulfill the global work force needs towards
2015.
MISSION
To generate conducive environment including character
development in strengthening creative and competitive human
capital.
VISION AND MISSION
Department of Polytechnic Education
VISION AND MISSION
Politeknik Muadzam Shah
8
INTRODUCTION
Outcome Based Education (OBE)
Lecturer – centered
Syllabus
What to teach
Non – behavioral objectives
Content
Student – centered
Learning
Outcomes
Learning environment
Includes behavioral objectives
Outcomes achieved? Assessment
TRADITIONAL SYSTEM OBE
Students passively learning
(makes content visible)
Students actively involved in learning
(makes learning visible)
Figure 4.1 : A Paradigm Shift for Educational System
Ministry of Higher Education, Malaysian Qualification Agency (MQA) and related professional bodies require all programs offered by Institution of Higher Learnings to adopt the Outcome Based Education approach in their teaching and learning activities. This is in line with the paradigm shift mooted by the Ministry of Higher Education to enhance the quality of education in Malaysia. Outcome-based education (OBE) is an educational approach that focuses on what students are able to do upon completion of a course. All curriculum and teaching decisions are made based on how best to facilitate the desired outcome. The term outcomes in this matter would be a set of values or ‘wish list’ on what students should acquire upon their educational program completion. Outcome-based education is designed so that “all students are equipped with the knowledge, skills and qualities needed to be successful after they exit the educational system” (Spady, 1994, p. 9). In brief, OBE answers the following questions:
What must the student learn?
What do the teachers or lecturers want the student to learn?
How does what student learn affect the overall educational outcome?
How do the teachers or lecturers make sure that the students learn what they are intended to learn? Thus, OBE outlines the guidance for planning, delivering and evaluating teaching and learning activities to achieve the results expressed in terms of individual student learning outcomes as shown in Figure 4.1 below.
9
INTRODUCTION
Outcome Based Education (OBE)
Beside , the figure 4.2 below shown the differentiate between Outcome Based Education (OBE) and Traditional Education(TE).
10
INTRODUCTION
Outcome Based Education (OBE)
UPON
GRADUATION
3 – 5 YEARS AFTER
GRADUATION
PMS VISION AND MISSION
PROGRAMME EDUCATIONAL OBJECTIVES
(PEO)
PROGRAMME LEARNING OUTCOMES
(PLO)
CLO 1 CLO 2 CLO 3 UPON COURSE
COMPLETION
Figure 4.3: OBE Educational Framework
OBE EDUCATIONAL FRAMEWORK Programme Educational Objectives (PEO): The broad statements that describe the career and professional accomplishments which the program is preparing graduates to achieve. Programme Learning Outcomes (PLO): The statements that describe what students are expected to know and able to perform or attain in terms of skills, knowledge and behaviour or attitude by the time of graduation. Course Learning Outcomes (CLO): The statements that describe the specification of what a student should learn upon completing a course .
11
INTRODUCTION
Outcome Based Education (OBE)
FORMATION OF LEARNING OUTCOMES The achievement of our students is measured by learning outcomes. These learning outcomes should specify the competencies acquired by students upon completion of their studies. Donnelly, K (2007) mooted that outcomes cater to the understandings, dispositions and capabilities which are the personal and intellectual qualities to be possessed by each student. The outcomes are developed throughout the students’ learning span. These features are contained in the 8 domains of learning outcomes:
12
INTRODUCTION
Outcome Based Education (OBE)
THREE MAIN STAGES IN TEACHING AND LEARNING PROCESS In general, OBE concept divides teaching and learning activities into three parts, namely: i. Planning, ii. Implementation and iii. Assessment At the planning stage, learning outcomes should be determined in advance by taking into account what students can do after attending a teaching process. At the implementation stage, the teaching and learning activities should be designed to achieve the specified learning outcomes. Finally, the assessment is to be determined where it measures how far students have achieved the specified learning outcomes and assessment provides input to continuously improve the teaching and learning process.
The three main stages in T&L process
Students
Felder & Brent, JEE, Jan., 2003
Learning Outcomes
Bloom’s Taxonomy
ProgramOutcomes
Instructor’sgoals
Assessment
ClassroomAssessment
technique
Test
Other measures
Surveys
Instruction/
Approaches
Instructional technology
Lectures Labs
Other techniques
Active & Cooperative
learning
Problem-based
learning
PlanningImplementation
Assessment
1
2
3
What do I want
my students to
be able to do as
a result of my
teaching?
What TL activities
do I adopt to
achieve the
intended LO?
Can my students do what I want them to be able to do?
3 domains of
educational goals
(cognitive,
psychomotor and
affective)
Towards the future of OBE: 1. Courses will help students to want, passionately, to do things, rather than just ‘be able to’ do
things. 2. Assessment will assess whether students actually and spontaneously achieve the outcomes,
rather than just ‘being able to’ 3. Outcomes will include values and principles and purposes as well as abilities.
In conclusion, the call for accountability is inevitably one of the reasons that lead to the introduction of OBE in Politeknik Muadzam Shah. All parties need to make necessary changes, modifications, and improvements in the light of the changes aimed. The roles of curriculum, lecturers or instructors and assessment must gear the students towards the intended outcomes.
13
DEPARTMENT OF
MECHANICAL ENGINEERING
14
BACKGROUND
.
Mechanical Engineering Department or Jabatan Kejuruteraan Mekanikal (JKM) was established at the Polytechnic Muadzam Shah at the end of November 2010. It’s establishment is in line with the movements of the Campus PMS operations while the permanent campus. The department consists a Head of Department, Head of Programme and academic lecturers. In addition, the Department has technicians, Administrative Assistant and Laboratory Assistant.
There are three new diploma program offered in this polytechnic:
Diploma in Mechanical Engineering (Automation)
Diploma in Mechanical Engineering (Product Design)
Diploma in Mechanical Engineering (Automotive Manufacturing Design)
The entire programmes will take six semesters to complete, relatively three academic semesters at their respective polytechnics and one semester of industrial training at relevant industries during the fourth semester. Students are required to return to their respective institutions for the completion of the programme in the fifth and sixth semester.
BACKGROUND
Department of Mechanical Engineering
15
Mechanical Engineering Department Organization
16
EN.MOHD FUAAD BIN FESUL Position: Head of Department Edu. Level: Sarjana Pendidikan Sarjana Muda Rekabentuk Produk Sijil Kejuruteraan Mekanikal Pembuatan Email: [email protected]
Head of Programme Mechanical Engineering (Automotive Manufacturing Design): EN. MOHD SHAHRIL BIN MOHD HASSAN @ ABDUL GHANI Position: Lecturer Penyelaras Kebajikan Pusat Islam Penyelaras OBE Peg. Penerima Aset Edu. Level: Master Edu.Tech&Voc Bc. Mech. Eng (Hons) Email: [email protected]
Head of Programme Mech. Engineering (Automation): EN. MOHD RIZAL AZMAN BIN RIFIN Position: Lecturer Edu. Level: Bc.Mech.Eng – Manufacturing (Hons) Email: [email protected]
Head of Programme Mech. Engineering(Product Design): PN. NURUL AFIZAH BINTI ADNAN Position: Lecturer Penyelaras Kursus Edu. Level: Master Edu.Tech&Voc Bc.Mech. Eng (Hons) Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Department of Mechanical Engineering
Head of Department Mechanical Engineering
Head of Programme Mechanical Engineering
17
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Automotive Manufacturing Design)
EN.AZLAN BIN ALI Position: Lecturer Ketua Penyelaras Bengkel dan Makmal Jabatan Edu. Level: Sijil Mekanikal Petroleum ( Politeknik Kuching)
Diploma Kej. Mekanikal Dengan Pendidikan (Bahan) ITTHO, Ijazah Sarjana Muda Pendidikan (Kejuruteraan Mekanikal) OUM
Email: [email protected]
EN. RAZIS BIN OSMAN Position: Lecturer Penyelaras Aset Jabatan Edu. Level: Bc.Mech.Eng– Automotive (Hons) Email: [email protected]
EN. MOHD NAZRUDDIN BIN MOHD NIZAM Position: Lecturer Penyelaras Jadual Waktu Penyelaras HEP(Kebajikan & Biasiswa) Edu. Level: Bc.Mech.Eng– Automotive (Hons) Email: [email protected]
EN. MOHD SHAZWAN BIN DAHLAN Position: Lecturer Penyelaras Aset Jabatan Edu. Level: Bc.Mech.Eng– Automotive (Hons) Email: [email protected]
18
ENGR. SITI HANIS-SYAZANA BINTI MOHAMAD Position: Lecturer Penyelaras Penyelidikan & Inovasi Penyelaras Pertandingan Kemahiran Malaysia Editor Diges PMS Edu. Level: Bc.Mech.Eng–Automotive (Hons) Email: [email protected]
PN. FATHIAH BINTI MOHAMED JAMIL Position: Lecturer Penyelaras Latihan Staf Edu. Level: Bc.Mech.Eng - Automotive (Hons) Email: [email protected]
PN. NURUL AYUNNI BINTI ABDUL LATIF Position: Lecturer Penyelaras Peperiksaan Program Edu. Level: Bc.Mfg.Eng-Materials (Hons) Dip.Mech.Eng (Plastic) Email: [email protected]
EN. MUHAMMAD IHSAN BIN MOHD GHAUS Position: Lecturer Penyelaras Disiplin Jabatan Edu. Level: Sarjana Muda Kejuruteraan Mekanikal (Kepujian) Diploma Kejuruteraan Mekanikal Email: [email protected]
EN. KHAIRUL AMIN BIN BARKAWI Position: Lecturer Penasihat Kelab de’ Inventors Peg. Penerima Aset Edu. Level: Dip.Mech.Eng With Education Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Automotive Manufacturing Design)
19
EN. AHMAD RAZIF BIN ABDUL HAMID Position: Lecturer Pegawai Perhubungan Awam Jabatan Penyelaras HEP (Data dan Rekod)Jabatan Penyelaras Projek 1 Edu. Level: Bc.Eng.Mech (Hons) Dip.Mech.Eng With Edu Email: [email protected]
PN. ELIZA BINTI SHAMSUDIN Position: Lecturer PenyelarasKursus Edu. Level: BET. Industrial Automation & Robotic (Hons) Dip.Tech (Electrical Equipment&Installation Email: [email protected]
CIK SARAH NADIAH BINTI MOHD GHAZALI Position: Lecturer Penyelaras Jadual Waktu Penyelaras PolyPMO Edu. Level: Bc.Mfg.Eng - Process (Hons) Dip.Mfg.Eng Email: [email protected]
En. Muhammad Kamal Asyraf bin Pubin Position: Lecturer Penyelaras Disiplin-JKKP Jawatankuasa OSH Edu. Level: Bc.Mech.Eng – Manufacturing (Hons) Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Automation)
20
CIK NURHIDAYAH BT AZMI Position: Lecturer Penyelaras Peperiksaan Program Penyelaras CISEC Jabatan Penyelaras Kursus Edu. Level: Bc Mech Manufacturing Email: [email protected]
CIK LIYANA SANI Position: Lecturer Penyelaras Penasihat Akademik Penyelaras Kursus Edu. Level: Bachelor Mechatronic
Email: [email protected]
EN.NORSYAHRIZAN BIN RASIP Position: Lecturer Penyelaras Kelab Invetor Penyelaras Kursus Edu. Level: Ijazah Sarjana Muda Kejuruteraan Mekanikal (Pembuatan) Email: [email protected]
EN. MOHD FAIZAL BIN NGAIMON Position: Lecturer Penyelaras Perolehan Jabatan Edu. Level: Dip.Mech.Eng - Welding Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Automation)
21
EN. KHUSHAIRY BIN AHMAD NAWAWI Position: Lecturer Penyelaras Projek 2 Edu. Level: Bc.Mech.Eng – Product Design (Hons) Dip. Mech. Eng With Education Email: [email protected]
EN. MOHD SYAIFUL HIDZIR BIN RAMLI Position: Lecturer Penyelaras 5S Jabatan Edu. Level: Bc.Mech.Eng – Product Design (Hons) Email: [email protected]
EN. JAMADEEL IZWAN BIN IBRAHIM Position: Lecturer Penyelaras Peperiksaan Program (K) Edu. Level: Bc.Mech.Eng – Design & Innovation (Hons) Dip. Mechanical Engineering Email: [email protected]
EN. MUHAMMAD SYIRAZI BIN SUHAIMI Position: Lecturer Penyelaras Keusahawanan Edu. Level: Bc.Mech.Eng – Industry (Hons) Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Product Design)
22
ACADEMIC & TECHNICAL STAFF
Dip. in Mech. Eng. (Product Design)
EN. ADILREZA BIN SHAMSURI Position: Lecturer Penyelaras Jadual Waktu Penyelaras Latihan Industri Edu. Level: Bc.Art and Design - Industrial Design (Hons) Email: [email protected]
PN SUYANI BINTI ARIFFIN Position: Lecturer
Penyelaras Kualiti dan Dokumentasi Jabatan Edu. Level: Ijazah Sarjana Muda Kejuruteraan Mekanikal dengan Kejuruteraan Pembuatan Email: [email protected]
PN. ANIZA BINTI MD LATIFF Position: Lecturer Penyelaras Kualiti dan Dokumentasi Jabatan Edu. Level: Dip. Mech. Eng With Education Email: [email protected]
23
PN. NORHAZLIN BINTI MD JANTIL Position: Office Assistant 3K Secretary Penyelaras Keceriaan & Kebajikan Edu. Level: SPM Email: [email protected]
EN. MOHAMAD ZAMRI BIN OTHMAN Position: Laboratory Assistant Edu. Level: SPM Email: [email protected]
ACADEMIC & TECHNICAL STAFF
Department of Mechanical Engineering
Office Assistant & Laboratory Assistant
24
LABORATORY FACILITIES
Department of Mechanical Engineering
NO ROOM
1 Lecturer Room
2 Mini Lecture Theatre
3 Design Studio
4 Engineering Drawing Studio
5 Quality Assurance Lab
6 Automation Lab
7 CAD/CAM Lab
8 Control Engineering Lab
9 Engineering Science Lab
10 Advance Manufacturing Lab
11 Project Room and Foundry
12 Fitting & Machining Workshop
13 Automotive Workshop
14 Model Making & Welding Workshop
15 CAD/CAE Lab
16 Instruction Room
25
Welding Workshop
LABORATORY FACILITIES
Department of Mechanical Engineering
Lecturer Room Mini Lecture Theatre
Engineering Drawing Studio
26
Robot Facility
Control Lab
LABORATORY FACILITIES
Department of Mechanical Engineering
27
DIPLOMA IN
MECHANICAL ENGINEERING
(AUTOMATION)
28
SYNOPSIS
Diploma in Mechanical Engineering (Automation) is designed to
cover the current wide discipline of mechanical engineering with
added specialization in the area of automation.
The broad-based mechanical engineering foundation courses
which includes Engineering Drawing, Electrical Technology,
Workshop Technology, Engineering Mechanics, Computer Aided
Design, Thermodynamics, Fluid Mechanics, Strength of Materials,
Pneumatic & Hydraulics and Occupational Safety and Health
provides versatility to the graduates, while emphasizing the area of
specialization in Automation.
Some of the specialized courses include Manufacturing
System, Mechanics of Machines, Computer Integrated
Manufacturing, Industrial Automation and Robotic, Programmable
Logic Controller (PLC), Control System, Power Transfer Mechanism,
Motor Controller and Industrial Maintenance.
DIPLOMA IN MECHANICAL ENGINEERING
AUTOMATION (DMA)
29
PROGRAMME EDUCATIONAL OBJECTIVES (PEO)
Programme Educational Objectives in Diploma in Mechanical
Engineering (Automation) are to produce graduates who are:
1. Knowledgeable and skilled in the field of Mechanical Engineering
(Automation) in accordance with industry requirements.
2. Aware and able to solve problems practically and ethically in
mechanical engineering.
3. Able to communicate effectively and demonstrate leadership
qualities with the characteristics of good teamwork in the industrial
environment.
4. Able to demonstrate entrepreneurial skills and pursue lifelong
learning in line with the national vision.
DIPLOMA IN MECHANICAL ENGINEERING
(AUTOMATION)
30
PROGRAMME LEARNING OUTCOMES (PLO) Upon completion of the programme, graduates should be able to:
1. Apply knowledge of mathematics, science and engineering
fundamentals to well defined mechanical engineering
procedures and practices.
2. Troubleshoot, repair and do maintenance for mechanical
equipment with specialization in Automation
3. Communicate effectively with the engineering community and
the society at large.
4. Apply creative and critical thinking in solving problem related to
assigned tasks;
5. Demonstrate awareness and consideration for societal, health,
safety, legal and cultural issues and the consequent
responsibilities, taking into account the need for sustainable
development;
6. Recognize the need for professional development and engage
in independent acquisition of new knowledge and skill.
7. Recognize the need for entrepreneurship, professional
development and engage in independent and lifelong learning.
8. Demonstrate an understanding of professional ethics,
responsibilities and norms of mechanical engineering practices.
9. Function individually or in teams, effectively, with a capability to
be a leader
DIPLOMA IN MECHANICAL ENGINEERING
(AUTOMATION)
31
JOB PROSPECT
This programme provides the knowledge and skills in
mechanical engineering field that can be applied to a broad range of
careers in automation industries.
The knowledge and skills that the students acquire from the
programme will enable them to participate in the job market as a;
1. Mechanical & Electrical Supervisor
2. Automation and Robotic Supervisor
3. Controller System Supervisor
4. Automation and Robotic Instructor
5. Technical Specialist
6. Technical Assistant
7. Automation Designer
8. Product Designer
9. Technical Support Services
DIPLOMA IN MECHANICAL ENGINEERING
AUTOMATION (DMA)
32
SEMESTER
1
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 101 Pendidikan Islam* 2 0 1 2 -
AA 102 Asas Pendidikan Moral** 2 0 1 2 -
2 AE 101 Communicative English 1 1 3 0 2 -
3 AR 101 Ko-Kurikulum 1 0 2 0 1 -
4 BA 101 Engineering Mathematics 1 2 1 0 2 -
5 BB 101 Engineering Science 2 1 0 2 -
6 BC 101 Computer Application 0 2 0 1 -
7 JJ 101 Engineering Drawing 0 2 0 1 -
8 JJ 103 Mechanical Workshop Practice 1 0 4 0 2 -
9 JJ 104 Workshop Technology 1 2 0 0 2 -
10 JJ 205 Engineering Mechanics 3 0 0 3 -
TOTAL CREDIT 18
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
AUTOMATION (DMA)
SEMESTER
2
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 209 Sains Teknologi dan Kejuruteraan dalam Islam*
2 0 1 2 -
AB 202 Pendidikan Moral** 2 0 1 2 -
2 AR 201 Ko-Kurikulum 2 0 2 0 1 AR101
3 AS 101 Soft Skills 1 2 0 2 -
4 BA 201 Engineering Mathematics 2 2 0 1 2 BA101
5 AW 101 Occupational Safety and Health 1 0 1 1 -
6 JJ 102 Electrical Technology 2 0 0 2 -
7 JJ 206 Computer Aided Design 1 0 2 0 1 JJ101
8 JJ 207 Thermodynamics 1 2 0 1 2 -
9 JJ 108 Engineering Laboratory 1 0 2 0 1 -
10 JJ 309 Fluid Mechanics 2 0 0 2 -
11 JF 201 Manufacturing System 2 0 0 2 -
TOTAL 18
33
SEMESTER
3
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AC 301 Tamadun Islam 2 0 1 2 -
2 AE 301 Communicative English 2 1 2 0 2 -
3 BA 301 Engineering Mathematics 3 2 0 1 2 -
4 JJ 306 Computer Aided Design 2 0 2 0 1 -
5 JJ 308 Engineering Laboratory 2 0 2 0 1 -
6 JJ 310 Strength of Materials 2 0 1 2 -
7 JJ 512 Pneumatic & Hydraulics 2 2 0 3 -
8 JJ 311 Mechanics of Machines 2 0 1 2 -
9 JM 506 Programmable Logic Controller 2 2 0 3 -
TOTAL 18
SEM 4
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AT 401 Industrial Training 0 0 0 10 AS101
TOTAL 10
SEMESTER
5
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AE 501 Communicative English 3 1 2 0 2 AE301
2 BA 501 Engineering Mathematics 4 2 0 1 2 BA201
3 JV 501 Computer Integrated Manufacturing
2 1 0 2 -
4 JV 502 Automation and Robotics 2 2 0 3 JM506
5 JV 503 Pneumatics and Hydraulics System 2 1 0 2 JJ512
6 JM 507 Control System 2 1 0 2 -
7 JJ 514 Project 1 1 0 0 1 -
8 JX XXX Elective 1 X X X 2 -
TOTAL 16
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
AUTOMATION (DMA)
34
SEMESTER
6
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 BA 601 Engineering Mathematics 5 2 0 1 2 BA501
2 PB 201 Entrepreneurship 2 0 1 2 -
3 JF 510 Industrial Maintenance 2 0 0 2 -
4 JM 609 Power Transfer Mechanism 2 0 1 2 -
5 JM 610 Basic Power Electronic 2 2 0 3 -
6 JJ 614 Project 2 0 4 0 2 JJ514
7 JX XXX Elective 2 X X X 2 -
TOTAL 15
ELECTIV
E
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 JF 608 Quality Control 2 0 0 2
2 JF 607 Manufacturing Control 2 0 0 2
3 JF 611 Manufacturing Economy 2 0 0 2
4 BC 301 Visual Programming 1 2 0 2
LIST OF ELECTIVE COURSES FOR AUTOMOTIVE MANUFACTURING DESIGN
Guide * For Muslim Students ** For Non-Muslim Students
COMPULSORY
COMMON CORE
DISCIPLINE CORE
SPECIALIZATION
ELECTIVE
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
AUTOMATION (DMA)
35
DIPLOMA IN
MECHANICAL ENGINEERING
(PRODUCT DESIGN)
36
SYNOPSIS
Diploma in Mechanical Engineering (Product Design) is
designed to cover the current wide discipline of mechanical
engineering with added specialization in the area of manufacturing.
The broad-based mechanical engineering foundation courses
which includes Computer Application, Technical Drawing, Workshop
Technology, Computer Aided Drawing, Occupational Safety and
Health and Mechanical Workshop provides versatility to the
graduates, while emphasizing the area of specialization in Designing
Mechanical Product.
Some of the specialized courses include Materials Technology,
Computer Aided Manufacturing Design, Computer Aided
Drawing, Product Design, Product Design Development,
Product Design Management, Ergonomic and Manufacturing
Process.
DIPLOMA IN MECHANICAL ENGINEERING
PRODUCT DESIGN (DRP)
37
PROGRAMME EDUCATIONAL OBJECTIVES (PEO)
Programme Educational Objectives in Diploma in Mechanical
Engineering (Product Design) are to produce graduates who are:
1. Knowledgeable and skilled in the field of Mechanical Engineering
(Product Design) in accordance with industry requirements.
2. Aware and able to solve problems practically and ethically in
mechanical engineering.
3. Able to communicate effectively and demonstrate leadership
qualities with the characteristics of good teamwork in the industrial
environment.
4. Able to demonstrate entrepreneurial skills and pursue lifelong
learning in line with the national vision.
DIPLOMA IN MECHANICAL ENGINEERING
(PRODUCT DESIGN)
38
PROGRAMME LEARNING OUTCOMES (PLO) Upon completion of the programme, graduates should be able to:
1. Apply knowledge of mathematics, science and engineering
fundamentals to well defined mechanical engineering
procedures and practices.
2. Troubleshoot, repair and do maintenance for mechanical
equipment with specialization in Product Design.
3. Communicate effectively with the engineering community and
the society at large.
4. Apply creative and critical thinking in solving problem related to
assigned tasks;
5. Demonstrate awareness and consideration for societal, health,
safety, legal and cultural issues and the consequent
responsibilities, taking into account the need for sustainable
development;
6. Recognize the need for professional development and engage
in independent acquisition of new knowledge and skill.
7. Recognize the need for entrepreneurship, professional
development and engage in independent and lifelong learning.
8. Demonstrate an understanding of professional ethics,
responsibilities and norms of mechanical engineering practices.
9. Function individually or in teams, effectively, with a capability to
be a leader
DIPLOMA IN MECHANICAL ENGINEERING (PRODUCT DESIGN)
39
Job Prospect
This programme provides the knowledge and skills in
mechanical engineering field that can be applied to a broad range of
careers in manufacturing industries.
The knowledge and skills that the students acquire from the
programme will enable them to participate in the job market as a;
1. Product Designer
2. Assistant Product Design Engineer
3. Production/Process Planner
4. Process Technician
5. Supervisor
6. Technical Specialist
7. Technical Assistant
8. CNC Programmer
9. Purchasing Technician
10. Design Drafter
11. CADD Technician
DIPLOMA IN MECHANICAL ENGINEERING
PRODUCT DESIGN (DRP)
40
SEMESTER
1
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 101 Pendidikan Islam* 2 0 1 2 -
AA 102 Asas Pendidikan Moral** 2 0 1 2 -
2 AE 101 Communicative English 1 1 3 0 2 -
3 AR 101 Ko-Kurikulum 1 0 2 0 1 -
4 BA 101 Engineering Mathematics 1 2 1 0 2 -
5 BB 101 Engineering Science 2 1 0 2 -
6 BC 101 Computer Application 0 2 0 1 -
7 JJ 101 Engineering Drawing 0 2 0 1 -
8 JJ 102 Electrical Technology 2 0 0 2 -
9 JJ 103 Mechanical Workshop Practice 1 0 4 0 2 -
10 JJ 104 Workshop Technology 2 0 0 2 -
11 JJ 108 Engineering Laboratory 1 0 2 0 1 -
TOTAL CREDIT 18
SEMESTER
2
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 209 Sains Teknologi dan Kejuruteraan dalam Islam*
2 0 1 2 -
AB 202 Pendidikan Moral** 2 0 1 2 -
2 AR 201 Ko-Kurikulum 2 0 2 0 1 AR101
3 AS 101 Soft Skills 1 2 0 2 -
4 BA 201 Engineering Mathematics 2 2 0 1 2 BA101
5 JJ 204 Workshop Technology 2 2 0 0 2 JJ104
6 JJ 205 Engineering Mechanics 3 0 0 3 -
7 JJ 206 Computer Aided Design 1 0 2 0 1 JJ101
8 JD 201 Product Design 1 1 2 0 2 -
9 JD 202 Ergonomics 2 0 0 2 -
TOTAL 17
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
PRODUCT DESIGN (DRP)
41
SEMESTER
3
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AC 301 Tamadun Islam 2 0 1 2 -
2 AE 301 Communicative English 2 1 2 0 2 -
3 BA 301 Engineering Mathematics 3 2 0 1 2 -
4 AW 101 Occupational Safety and Health 1 0 1 1 -
5 JJ 310 Strength of Materials 2 0 1 2 -
6 JD 301 Product Design 2 1 4 0 3 -
7 JF 302 Material Technology 1 2 0 0 2 -
8 JD 303 Product Design Development 1 4 0 3 -
TOTAL 17
SEM 4
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AT 401 Industrial Training 0 0 0 10 AS101
TOTAL 10
SEMESTER
5
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AE 501 Communicative English 3 1 2 0 2 AE301
2 BA 501 Engineering Mathematics 4 2 0 1 2 BA201
3 JJ 207 Thermodynamics 1 2 0 1 2 -
4 JJ 512 Pneumatic & Hydraulics 2 2 0 3 -
5 JD 501 Product Design 3 1 2 0 2 JJ206
6 JD 504 Product Design Management 2 0 0 2 -
7 JF 504 CAD CAM 1 2 0 2 -
8 JJ 514 Project 1 1 0 0 1 -
TOTAL 16
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
PRODUCT DESIGN (DRP)
42
SEMESTER
6
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 BA 601 Engineering Mathematics 5 2 0 1 2 BA501
2 PB 201 Entrepreneurship 2 0 1 2 -
3 JJ 308 Engineering Laboratory 2 0 2 0 1 -
4 JJ 309 Fluid Mechanics 2 0 0 2 -
5 JD 605 Manufacturing Process 3 0 0 3 -
6 JJ 614 Project 2 0 4 0 2 JJ514
7 JX XXX Elective 1 X X X 2 -
8 JX XXX Elective 2 X X X 2 -
TOTAL 16
ELECTIV
E
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 VG 101 Photography 1 1 2 0 2 -
2 JF 502 Material Technology 2 2 0 0 2 JF302
3 JF 608 Quality Control 2 0 0 2 -
4 JJ 619 Industrial Management 2 0 0 2 -
5 JF 611 Manufacturing Economy 2 0 0 2 -
LIST OF ELECTIVE COURSES FOR PRODUCT DESIGN
Guide * For Muslim Students ** For Non-Muslim Students
COMPULSORY
COMMON CORE
DISCIPLINE CORE
SPECIALIZATION
ELECTIVE
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
PRODUCT DESIGN (DRP)
43
DIPLOMA IN
MECHANICAL ENGINEERING (AUTOMOTIVE MANUFACTURING DESIGN)
44
SYNOPSIS
Diploma in Mechanical Engineering (Automotive
Manufacturing Design) is designed to cover the current wide
discipline of mechanical engineering with added specialization in
the area of automotive and manufacturing.
The broad-based mechanical engineering foundation courses
which includes Computer Application, Electrical Technology,
Technical Drawing, Computer Aided Drawing, Mechanical
Workshop Technology, Occupational Safety and Health,
Engineering Laboratory, Thermodynamics, Fluid Mechanics, Strength
of Materials, Material Technology, Pneumatic & Hydraulic and
Engineering Design provides versatility to the graduates, while
emphasizing the area of specialization in manufacturing and
automotive design.
Some of the specialized courses include Automotive
Technology, Automotive Workshop Practice, Automotive Product
Design, CADCAM, Project, Automotive Manufacturing Process,
Manufacturing Control, Project Management, Jigs, Fixtures &
Tooling Design, Manufacturing Economy, Industrial Maintenance,
Quality Control and Instrumentation & Control.
DIPLOMA IN MECHANICAL ENGINEERING
Automotive Manufacturing Design (DRA)
45
PROGRAMME EDUCATIONAL OBJECTIVES (PEO)
Programme Educational Objectives in Diploma in Mechanical
Engineering (Automotive Manufacturing Design) are to produce
graduates who are:
1. Knowledgeable and skilled in the field of Mechanical Engineering
(Automotive Manufacturing Design) in accordance with industry
requirements.
2. Aware and able to solve problems practically and ethically in
mechanical engineering.
3. Able to communicate effectively and demonstrate leadership
qualities with the characteristics of good teamwork in the
industrial environment.
4. Able to demonstrate entrepreneurial skills and pursue lifelong
learning in line with the national vision.
DIPLOMA IN MECHANICAL ENGINEERING
(AUTOMOTIVE MANUFACTURING DESIGN)
46
PROGRAMME LEARNING OUTCOMES (PLO) Upon completion of the programme, graduates should be able to:
1. Apply knowledge of mathematics, science and engineering
fundamentals to well defined mechanical engineering
procedures and practices.
2. Troubleshoot, repair and do maintenance for mechanical
equipment with specialization in Automotive Manufacturing
Design.
3. Communicate effectively with the engineering community and
the society at large.
4. Apply creative and critical thinking in solving problem related to
assigned tasks;
5. Demonstrate awareness and consideration for societal, health,
safety, legal and cultural issues and the consequent
responsibilities, taking into account the need for sustainable
development;
6. Recognize the need for professional development and engage
in independent acquisition of new knowledge and skill.
7. Recognize the need for entrepreneurship, professional
development and engage in independent and lifelong learning.
8. Demonstrate an understanding of professional ethics,
responsibilities and norms of mechanical engineering practices.
9. Function individually or in teams, effectively, with a capability to
be a leader
DIPLOMA IN MECHANICAL ENGINEERING
(AUTOMOTIVE MANUFACTURING DESIGN)
47
JOB PROSPECT
This programme provides the knowledge and skills in
mechanical engineering field that can be applied to a broad range of
careers in automotive and manufacturing industries.
The knowledge and skills that the students acquire from the
programme will enable them to participate in the job market as a;
1. Manufacturing Supervisor
2. Technical Specialist
3. Technical Assistant
4. Quality Technician
5. Production/Process Planner
6. Purchasing Technician
7. Product Designer
8. Design Drafter
9. CADD Technician Assistant Network Administrator
10. Process Technician and Machine Operator
DIPLOMA IN MECHANICAL ENGINEERING
Automotive Manufacturing Design (DRA)
48
SEMESTER
1
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 101 Pendidikan Islam* 2 0 1 2 -
AA 102 Asas Pendidikan Moral** 2 0 1 2 -
2 AE 101 Communicative English 1 1 3 0 2 -
3 AR 101 Ko-Kurikulum 1 0 2 0 1 -
4 BA 101 Engineering Mathematics 1 2 1 0 2 -
5 BB 101 Engineering Science 2 1 0 2 -
6 BC 101 Computer Application 0 2 0 1 -
7 JJ 101 Engineering Drawing 0 2 0 1 -
8 JJ 102 Electrical Technology 2 0 0 2 -
9 JJ 104 Workshop Technology 2 0 0 2 -
10 JJ 108 Engineering Laboratory 1 0 2 0 1 -
11 JA 101 Automotive Technology 1 2 0 1 2 -
18 TOTAL CREDIT
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
Automotive Manufacturing Design (DRA)
SEMESTER
2
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AA 203 Sains Teknologi dan Kejuruteraan dalam Islam*
2 0 1 2 -
AB 202 Pendidikan Moral** 2 0 1 2 -
2 AR 201 Ko-Kurikulum 2 0 2 0 1 AR101
3 AS 101 Soft Skills 1 2 0 2 -
4 BA 201 Engineering Mathematics 2 2 0 1 2 BA101
5 JJ 205 Engineering Mechanics 3 0 0 3 -
6 JJ 206 Computer Aided Design 1 0 2 0 1 JJ101
7 JJ 207 Thermodynamics 1 2 0 1 2 -
8 JJ 308 Engineering Laboratory 2 0 2 0 1 -
9 JA 201 Automotive Technology 2 2 0 1 2 JA101
10 JA 102 Automotive Workshop Practice 1 0 4 0 2 -
TOTAL 18
49
SEMESTER
3
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AC 301 Tamadun Islam 2 0 1 2 -
2 AE 301 Communicative English 2 1 2 0 2 -
3 BA 301 Engineering Mathematics 3 2 0 1 2 -
4 AW 101 Occupational Safety and Health 1 0 1 1 -
5 JJ 309 Fluid Mechanics 2 0 0 2 -
6 JJ 310 Strength of Materials 2 0 1 2 -
7 JF 302 Material Technology 1 2 0 0 2 -
8 JA 202 Automotive Workshop Practice 2 0 4 0 2 JA102
9 JI 301 Automotive Product Design 1 3 0 2 -
TOTAL 17
SEM 4
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AT 401 Industrial Training 0 0 0 10 AS101
TOTAL 10
SEMESTER
5
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 AE 501 Communicative English 3 1 2 0 2 AE301
2 BA 501 Engineering Mathematics 4 2 0 1 2 BA201
3 JJ 513 Engineering Design 3 0 0 3 -
4 JF 504 CAD CAM 1 2 0 2 -
5 JI 502 Automotive Manufacturing Process 2 0 0 2 -
6 JI 503 Project Management 2 0 0 2 -
7 JJ 514 Project 1 1 0 0 1 -
8 JX XXX Elective 1 X X X 2
TOTAL 16
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
Automotive Manufacturing Design (DRA)
50
SEMESTER
6
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 BA 601 Engineering Mathematics 5 2 0 1 2 BA501
2 PB 201 Entrepreneurship 2 0 1 2 -
3 JJ 512 Pneumatic & Hydraulics 2 2 0 3 -
4 JF 607 Manufacturing Control 2 0 0 2 -
5 JF 609 Jigs, Fixtures & Tooling Design 2 2 0 3 -
7 JJ 614 Project 2 0 4 0 2 JJ514
8 JX XXX Elective 2 X X X 2 -
TOTAL 16
ELECTIV
E
No. Course Code
Course Title L P T Credit Hours
Pre-Requisites
1 JA 301 Automotive Technology 3 2 0 1 2 JA202
2 JA 501 Automotive Technology 4 2 0 1 2 JA301
3 JF 502 Material Technology 2 2 0 0 2 -
4 JF 510 Industrial Maintenance 2 0 0 2 -
5 JJ 517 Instrumentation & Control 1 2 0 3 -
6 JF 611 Manufacturing Control 2 0 0 2 -
7 JF 608 Quality Control 2 0 0 2 -
LIST OF ELECTIVE COURSES FOR AUTOMOTIVE MANUFACTURING DESIGN
Guide * For Muslim Students ** For Non-Muslim Students
COMPULSORY
COMMON CORE
DISCIPLINE CORE
SPECIALIZATION
ELECTIVE
PROGRAMME STRUCTURE DIP. IN MECH. ENG.
Automotive Manufacturing Design (DRA)
51
SUPPORTING DEPARTMENTS
52
The Mathematics, Science and Computer Department which is also known as JMSK is an academic supporting department. It is responsible for the B code courses in three different fields that are Mathematics, Science and Computer. Besides, JMSK coordinate all courses in Mathematics, Engineering Sci-ence and Computer which became as a core to the students’ academic achievement in Politeknik Muadzam Shah. This department was set up in December 2010 and its currently running with 11 lecturers, one laboratory assistant and one office assistance.
JMSK is supported by the head of department; supported by three (3) course leaders of Mathematics, Science and Computer. This department is equipped with computer laboratories, science laboratory, mathematical laboratory and classrooms.
SUPPORTING DEPARTMENT Mathematics, Science and Computer Department
General Studies Department
The General Studies Department strives to produce excellent students in both cognitive and spiritual faculties. For that end, the department provides courses that complement the programmes offered by the main departments. The English courses prepare the students with the essential knowledge and skills in communication to meet the challenges in their future workplace. Apart from that, students are also nurtured with the teachings of Islam, moral values and the knowledge of Islamic civilization.
This department comprises the Head of Department, together with three Heads of Course and also lecturers from the English Language Unit, the Islamic Edu-cation and Moral Studies Unit and Co-curriculum Unit. The English Language Unit consists of 7 lecturers while the Islamic Education and Moral Studies unit has a total number of 5 lecturers. Furthermore, the department has three lan-guage laboratories that are equipped with the necessary peripherals to en-hance the languages’ learning and teaching sessions.
Lastly, it is with high expectation that this Programme Handbook will enlighten the students regarding the courses offered by the Department of General Stud-ies, Politeknik Muadzam Shah.
53
SYNOPSIS &
COURSE LEARNING OUTCOME
(CLO) FOR ALL COURSES
54
SYNOPSIS AND COURSE LEARNING OUTCOME
Compulsory
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
AA
101
Pendid
ikan Is
lam
2
PENDIDIKAN ISLAM Menghuraikan Islam sebagai cara hidup yang merangkumi konsep syahadah, syariat dan akhlak dalam membentuk sikap bertanggungjawab terhadap Allah SWT, manusia dan alam.
1. Menerangkan Islam sebagai al-Din. (C2) 2. Menunjuk cara perlaksanaan ibadah solat
dalam Islam dan bacaan surah pilihan. (P2, A2)
3. Membincangkan isu-isu kontemporari berkaitan syariat Islam. (C3)
AB
102
A
sas P
endid
ikan M
ora
l
2
ASAS PENDIDIKAN MORAL Memberi pengetahuan tentang Asas, Konsep dan Teori Moral. Kursus ini juga menerangkan nilai agama dalam kehidupan individu serta isu-isu sosial yang berlaku di Politeknik.
1. Menyatakan konsep Pendidikan Moral. (C1) 2. Menjelaskan nilai agama dalam kehidupan
individu. (C2, A1) 3. Membincangkan isu-isu sosial Politeknik.
(C3, A3)
AA
209
Sain
s T
eknolo
gi d
an K
eju
rute
raan d
ala
m Is
lam
2
SAINS TEKNOLOGI DAN KEJURUTERAAN DALAM ISLAM Membincangkan konsep sains teknologi dan kejuruteraan dalam Islam serta impaknya, pencapaian tamadun Islam, prinsip serta peranan syariah dan etika Islam, peranan Kaedah Fiqh serta aplikasinya.
1. Menjelaskan konsep hospitaliti dan pelancongan mengikut Islam. (C2)
2. Menghuraikan kaedah fiqh, konsep kebersihan dan nilai estetika Islam dalam industri hospitaliti dan pelancongan. (C2)
3. Membincangkan isu-isu semasa hospitaliti dan pelancongan dalam Islam. (A2, P2)
55
SYNOPSIS AND COURSE LEARNING OUTCOME
Compulsory
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
AB
202
Pendid
ikan M
ora
l
2
PENDIDIKAN MORAL 2 merupakan lanjutan daripada kursus Asas Pendidikan Moral. Pelajar diberi kefahaman secara mendalam tentang nilai-nilai masyarakat Malaysia dan peranan individu dalam hidup bermasyarakat dan bernegara. Kursus ini juga menerangkan cabaran dan isu moral dalam mewujudkan masyarakat Malaysia yang harmoni, beretika dan profesional.
1. 1.menerangkan nilai-nilai masyarakat Malaysia. (C2, A2)
2. 2. membincangkan peranan manusia dalam kehidupan masyarakat dan negara. (C2, A2)
3. 3. membincangkan cabaran dan isu moral dalam masyarakat masa kini. (C3, A3)
AC
301
Tam
adun Is
lam
2
TAMADUN ISLAM diperkenalkan untuk mendedahkan para pelajar terhadap konsep asas dan prinsip Tamadun Islam. Kursus ini juga membincangkan secara terperinci perkembangan Tamadun Islam bermula dari Zaman Rasulullah SAW sehingga kini merangkumi pelbagai aspek seperti perkembangan ilmu pengetahuan, politik, ekonomi, sosial, sains teknologi dan kejuruteraan.
1. Menerangkan konsep tamadun Islam . 2. Menerangkan sejarah kemunculan serta
perkembangan Tamadun Islam dan isu-isu semasa semasa Tamadun Islam dalam kumpulan.
3. Membandingkan konsep kejadian manusia menurut pandangan Islam dn sains supaya dapat difahami hakikat kejadian diri dan mensyukuri.
4. Menghuraikan secara menyeluruh sumbangan Tamadun Islam terhadap ekonomi, perkembangan ilmu, politik dan tamadun manusia supaya dapat dipraktikkan dalam kehidupan seharian.
AE
101
Com
munic
ativ
e E
nglis
h 1
2
COMMUNICATIVE ENGLISH 1 Focuses on speaking skills for students to develop the ability to communicate effectively and confidently. It is designed to provide students with useful expressions that can be used in a variety of social interactions and situations. It also provides students with an opportunity to initiate and participate in group discussions.
1. Use appropriate communication skills and registers for social interactions. (C3,A2)
2. Listen to selected conversations/speeches and respond appropriately and accurately. (C2,A2)
3. Provide feedback to current issues / topics of interest in written form . (C4,A2)
4. Apply dictionary skills correctly to check meanings and usage of words.(C3, A2)
5. Apply organisational strategies and communicate confidently using effective delivery techniques, graphics and visual support. (C3,A2)
56
SYNOPSIS AND COURSE LEARNING OUTCOME
Compulsory
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
AE
301
Com
munic
ativ
e E
nglis
h 2
2
COMMUNICATIVE ENGLISH 2 Emphasizes on the skills needed to describe product and services as well as processes and procedures. It focuses on the skills to give and respond to instructions. The course will also enable students to make and reply to enquiries and complaints in their future workplace.
1. Describe products and services clearly and confidently. (C1,A2)
2. Present an oral presentation on processes and procedures using appropriate language devices and suitable visual aids. (C3,A2)
3. Listen and respond to enquiries using appropriate language.(C3,A2)
4. Make and respond to different types of complaints using appropriate language.(C3,A2)
AE
501
Com
munic
ativ
e E
nglis
h 3
2
COMMUNICATIVE ENGLISH 3 Aims to develop the skills necessary to carry out a mini project as well as job hunting skills. Students will learn to present ideas through the use of graphs and charts. Students will learn the process of job hunting which includes job search strategies and making enquiries. They will also learn to write resumes and cover letters. The students will develop skills to introduce themselves, highlight their strength and abilities, present ideas, express opinions and respond appropriately during job interviews.
1. Present a mini project using appropriate visual aids. (C4, A2)
2. Write a resume and cover letter using appropriate language. (C3, A2)
3. Respond to interview questions using appropriate language when applying for jobs.
AR
101
Ko - K
urik
ulu
m 1
1
KOKURIKULUM 1
Menekankan kepada kemahiran asas yang meliputi aktiviti berkawad, pertolongan cemas, pencegahan kebakaran, protokol dan etiket sosial dan juga pengurusan diri dan jati diri.
1. Menjelaskan asas kemahiran kendiri individu yang berketerampilan.
2. Mempraktikkan kemahiran-kemahiran yang dipelajari.
3. Mempamerkan semangat muhibbah dan integrasi nasional melalui aktiviti-aktiviti yang dilaksanakan.
57
SYNOPSIS AND COURSE LEARNING OUTCOME
Compulsory
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
AR
201
Ko - K
urik
ulu
m 2
1
KOKURIKULUM 2 memfokuskan kepada penyediaan pengetahuan dan pengalaman yang boleh dijalankan di dalam dan di luar bilik kuliah bagi perkembangan mental, minat, bakat, jasmani, rohani dan pembentukan nilai-nilai estetika serta sosial yang positif.
1. Menjelaskan asas kemahiran khusus dan pengurusan organisasi yang dipelajari. (C2)
2. Mempraktikkan kemahiran khusus dan pengurusan organisasi yang dipelajari. (P2)
3. Melaksanakan aktiviti-aktiviti berdasarkan penguasaan kemahiran yang dipelajari. (A2)
AS
101
Soft S
kills
2
SOFT SKILLS Provides exposure and experience for personality development, communication skills, management, leadership, writing and appreciation of professional ethics. This course develops proactive spirit and attitude in students thus giving confidence to become excellent and charismatic individuals.
1. Use effective communication skills in various verbal and non-verbal forms of communication at the workplace. (C3, A2)
2. Practice leadership skills and management skills in conducting a group project. (C3, A3)
3. Differentiate the types of formal letters and reports correctly. (C2, A2)
58
SYNOPSIS AND COURSE LEARNING OUTCOME
Common Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
BA
101
Engin
eerin
g M
ath
em
atic
s 1
2
ENGINEERING MATHEMATICS 1 Exposes students to algebra, standard form, index and logarithm, geometry and measurement as well as coordinates geometry and graph, theoretically and practically. This course also explains the basic concept of trigonometry and its functions in solving problems.
1. Identify the basic concept of Basic Algebra, Standard Form, Index and Logarithm, Trigonometry, Geometry and Measurement, and Coordinate Geometry and Graph. (C1)
2. Apply the concept and suitable method of Basic Algebra, Standard Form, Index and Logarithm, Trigonometry, Geometry and Measurement, and Coordinate Geometry and Graph. (C3, P1)
3. Solve the related mathematical problems by using suitable steps in Trigonometry, and Geometry and Measurement. (A2)
BA
201
Engin
eerin
g M
ath
em
atic
s 2
2
ENGINEEERING MATHEMATICS 2 Provides exposure to students regarding complex numbers which explains real and imaginary numbers. This course also emphasizes on calculus and its
applications.
1. Explain basic operations on complex numbers stated in various forms using algebraic operations or by constructing Argand’s diagrams. (C2)
2. Apply various differentiation techniques to determine the derivatives of algebraic,
trigonometric, logarithmic, exponential and parametric functions up to the second order including solving real life optimization and kinematic problems. (C3, P1)
3. Use suitable integration methods in solving related problems to determine the definite and indefinite integrals of algebraic, trigonometric, reciprocal and exponential functions. (C3, A1)
BA
301
Engin
eerin
g M
ath
em
atic
s 3
2
ENGINEERING MATHEMATICS 3 Exposes students to the statistical concept and its applications in interpreting data. Estimation of area under irregular shapes is also included. This course introduces the applications of arithmetic and geometric progressions and matrix concept to solve simultaneous equation by inverse matrix method and Cramer’s Rule. The Numerical Method enables students to solve simultaneous linear and non-linear equations.
1. Transform raw data into useful statistics to compute central tendencies and dispersions using appropriate formula or graphical methods.
2. Apply Trapezium and Simpson’s Rules, Arithmetic Progression (AP) and Geometric Progression (GP) formulae in solving given problems.
3. Select suitable methods to solve simultaneous linear equations and non-linear equations problems.
59
SYNOPSIS AND COURSE LEARNING OUTCOME
Common Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
BA
501
Engin
eerin
g M
ath
em
atic
s 4
2
ENGINEERING MATHEMATICS 4 Consists of topics such as binomial and series expansion as well as vector, scalar, partial fraction and Laplace Transform. This course also discuss on analytical geometry of conics for mechanical engineering students.
1. Use binomial expansion and power series to find the required value.
2. Solve related problems of vectors and partial fractions by using suggested method.
3. Perform the solution of advanced calculus problems using Laplace Transform and Inverse Laplace Transform based on appropriate theorems.
4. Present the graphs of analytical geometry for conics by analyzing their equations.
BA
601
Engin
eerin
g M
ath
em
atic
s 5
2
ENGINEERING MATHEMATICS 5 Exposes students to hyperbolic, inverse hyperbolic and inverse trigonometric functions. This course also introduces differentiation and integration. Differential equation topic is included to guide students to understand the methods of solving differential equations.
1. Find the values for hyperbolic, inverse hyperbolic and inverse trigonometric functions based on solid comprehension of these functions.
2. Respond to the given problems by using advanced differentiation and integration formula.
3. Analyze the solutions of first and second order differential equations by using the appropriate methods
BB
101
Engin
eerin
g S
cie
nce
2
ENGINEERING SCIENCE
Is an applied science with theoretical concepts and practical learning sessions that can be applied in the engineering fields. This course focuses on the Physical Quantities, Measurement, Linear Motion, Force, Work, Energy, Power, Solid, Fluid, Temperature, Heat and Electricity.
1. Identify the basic concept of physical quantities, measurement, linear motion, force, work, energy, power, solid, fluid, temperature, heat and electricity.
2. Apply concept of physical quantities, measurement, linear motion, solid, fluid, temperature and heat to prove related physics principles.
3. Apply the concept of linear motion, force, work, energy, power, solid, fluid, temperature, heat and electricity in real basic engineering problems.
60
SYNOPSIS AND COURSE LEARNING OUTCOME
Common Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
BC
101
Com
pute
r Applic
atio
n
1 1
COMPUTER APPLICATION Provides knowledge and skills to students relating to various types of computer systems and its application especially pertaining to hardware and software. This course also exposes students with different packages of software applications for word processor, spread sheet, project management, presentation and internet. The students will also have opportunity to manipulate and create a variety of techniques and styles to produce documents, spread sheets, charts and presentations. This course emphasizes on the practical aspects of using computer applications.
1. Identify basic of computer system. 2. Use internet to search appropriate data and
produce simple web page. 3. Produce documents using word processor,
spread sheet, project management, presentation and multimedia software.
AW
101
Occupatio
nal S
afe
ty &
Health
1
1
OCCUPATIONAL SAFETY AND HEALTH 1 Is designed to impart understanding of the basic of safety and health in workplace setting. This course presents aspects of occupational safety and health, which are essential for employees to practise safe and healthy environment, resulting in less hazards at the workplace. Emphasis is placed on the understanding of regulations, OSH management, accident prevention and occupational First-Aid methods.
1. Describe the OSH regulations and compliance and how it will create safe working environment. (C1)
2. Identify hazards, risks and safe work practices in order to maintain healthy and safe work environment. (C1)
3. Perform communication skills in a team to respond for an accident action at workplace. (A1)
PB
201
Entre
pre
neurs
hip
2
ENTREPRENEURSHIP
Focuses the principles and concept of entrepreneurship. This course concentrates on the systematic methods of getting business ideas. This course also prepare the students on ways to conduct and control the business including fundamental of management, marketing and financing. It also emphasizes on the preparation of business plan, thus developing their entrepreneurial skills.
1. Explain clearly the concept of entrepreneurship, business ownership and procedures in setting up a business in case study given. (C2)
2. Work cooperatively in group to complete the assigned project based on entrepreneurial skills. (P2)
3. Present business plan creatively prepared using knowledge gained via group.(A2)
61
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 1
01
Engin
eerin
g D
raw
ing
1
ENGINEERING DRAWING Provides the student with the basic fundamental of engineering drawing. It emphasizes on the practical knowledge of drawing instruments and drawing techniques that will be applied in workshop practical activities and in Computer Aided Design courses.
1. Explain clearly the purpose and types of engineering drawing. (C2)
2. Construct geometrical forms, tangent, dimensioning and tolerance, orthographic projections, precisely auxiliary projection, isometric and development views using various methods. (P5)
3. Discuss clearly the application of engineering drawing in various industry. (A2)
JJ 1
02
Ele
ctric
al T
echnolo
gy
2
ELECTRICAL TECHNOLOGY Exposes students to basic electrical circuit concepts, the application of electromagnetism in electrical machines and transformers. The course focuses on the different types of electrical circuits, the relationship between current and voltage including the resistance. It also provides the skills on the methods of constructing basic circuits and operation of electrical machines and transformers.
1. Use the principles of electrical circuit and electromagnetism related to the fundamentals of electrical tehnology. (C3)
2. Distinguish the characteristic of electrical circuits by sketching. (C4)
3. Study the theory of electrical technology to solve related engineering problems in groups. (A3)
JJ 1
03
Mechanic
al W
ork
shop P
ractic
e 1
2
MECHANICAL WORKSHOP PRACTICE 1
Exposes the students to welding, machining and fitting which involves the use of arc and gas welding machine, lathe machine, drilling machine, grinding, hand tools, marking out tools, measuring and testing tools. Students are also taught to emphasize on safety procedures and cleanliness in the workshop.
1. Explain safety procedure in the workshops according to the workshop safety regulation (C3)
2. Perform fitting , machining and welding works according to Standard Operation Procedure (SOP) (P4)
3. Practice correct safety procedures and working techniques in the workshop (A2)
62
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 1
04
Work
shop T
echnolo
gy 1
2
WORKSHOP TECHNOLOGY 1 Provides exposure to the students in using hand tools correctly and safely, technique of operating drilling machine and lathe machine. It also emphasis on ways of operating gas and arc welding equipment correctly and safely and gives emphasis on concept of tolerance in production process.
1. Explain the accident prevention, hand tools, measurement equipments and indexing in workshop technology (C2)
2. Classify the types of the removal and joining process in mechanical engineering (C4)
3. Justify the importance issues of workshop technology in current technology trend (A3)
JJ 1
08
Engin
eerin
g L
abora
tory
1
1
ENGINEERING LABORATORY 1 Exposes the students to practical laboratory experiments inElectrical Technology and Engineering Mechanics. These experiments consist of collection of data through observation and experimentation, formulation and testing of theory.
1. Analyse critically the experimental data in relation to the theoretical aspects. (C4)
2. Organize appropriately electrical and engineering mechanics experiments in groups according to the standard of procedures. (P4)
3. Write critically the appropriate report in group based on the experiment results.(A2)
JJ 2
04
Work
shop T
echnolo
gy 2
2
WORKSHOP TECHNOLOGY 2
Provides knowledge to the students regarding methods of measurement and inspection on of metric ‘V’ screw threads and spur gear. It also covers types of gears and their functions, surface texture, computer numerical control, shielded arc welding and rapid prototyping.
1. Explain the basic parts and equipments in workshop technology (C3)
2. Explain the measurement equipments and indexing in workshop technology (P2)
3. Explain the application of workshop technology process in various manufacturing industry (A3)
63
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 2
05
Engin
eerin
g M
echanic
s
3
ENGINEERING MECHANICS Stresses on theoretical knowledge in statics and dynamics. This course provides students with fundamental understanding of forces and equilibrium, resultants, equilibrium of a rigid body and structural analysis. This course also covers an introduction to dynamics, kinematics of particles and kinetics of particles.
1. Apply the principles of statics and dynamics to solve engineering problems (C3)
2. Sketch related diagram to be used in problem solving (C3)
3. Study the theory of engineering mechanics to solve related engineering problems in group (A3)
JJ 2
06
Com
pute
r Aid
ed D
esig
n 1
1
COMPUTER AIDED DESIGN 1 Provides a comprehensive introduction to computer-aided design software. Students will learn to navigate and use the software to create basic designs.
1. Explain the function of CAD commands in drawing.(C3)
2. Create basic 2D and 3D sketches using CAD commands.(P3)
3. Discuss the CAD software that has been used recently.(A2)
JJ 2
07
Th
erm
odynam
ics 1
2
THERMODYNAMICS 1 Exposes students to the basic concepts of thermodynamics related to unit, dimension, first law of thermodynamics and ideal gas model. This course also emphasizes on concepts on non flow process, flow process, properties of steam, second law of thermodynamics and properties of mixture and combustion processes. This course also provides knowledge and understanding of theory, concepts and application of principles to solve problems related to thermodynamics processes.
1. Solve problem correctly related Thermodynamics using formulation and theory.(C3)
2. Analyze the First law and Second Law of thermodynamics concept in related field. (C4)
3. Study the theory of Thermodynamics to solve related engineering problems in groups.(A3)
64
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 3
06
Com
pute
r Aid
ed D
esig
n 2
1
COMPUTER AIDED DESIGN 2 Exposes the students to learn the fundamental principles of 3D parametric part design and production-ready part drawings using 3D CAD software. Students will know the various method of creating a solid model using extrude, revolve, swept, assembly, simulation and animation. Hands-on exercises representing real-world, industry-specific design of mechanical engineering will also be covered in this course.
1. Produce a parametric solid modeling using 3D CAD software commands.(C5)
2. Design 3D drawings using CAD commands.(P7)
3. Discuss the application of 2D and 3D CAD drawings in industrial area.(A2)
JJ 3
08
Engin
eerin
g L
abora
tory
2
1
ENGINEERING LABORATORY 2 Exposes the students to the demonstration at the real equipment of Fluid Mechanics, Strength Material and Thermodynamics1. These experiment consists of the collection of data through observation and experimentation, formulation and testing of theory
1. Analyse critically the experimental data in relation to the theoretical aspects(C4)
2. Organize appropriately experiments in groups according to the standard of procedures(P4)
3. Write critically the appropriate report in group based on the experiment results(A2)
JF
302
Mate
rial T
echnolo
gy 1
2
MATERIAL TECHNOLOGY 1 Provides students an understanding on pure metal, alloy and other non-metal materials that are commonly used in the engineering field, including a study on metal and alloy microstructure. Students also learn the processes of metal work and specific materials used to produce engineering components.
1. Explain various types of materials used in manufacturing industry.(C2)
2. Synthesize course knowledge into an effective course assignment and present technical findings both orally and in writing.(A4)
3. Show various principles of material testing and material defects .(P2)
65
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 3
09
Flu
id M
echanic
s
2
FLUID MECHANICS Provides students with a strong fundamental understanding on fluid mechanics principles relating to basic foundation knowledge on fluid properties and behaviour in a number of static and dynamic situations.
1. Determine clearly the characteristics and properties of fluids
2. Solve problems correctly related to fluid static and fluid dynamics
3. Demonstrate an understanding in pressure measurement in pipe connection system
4. Explain clearly the concepts of fluid flow in the nozzle
JJ 3
10
Stre
ngth
of M
ate
rials
2
STRENGTH OF MATERIALS Provides knowledge on concepts and calculation of forces on materials, thermal stress, shear force and bending moment, bending stress, shear stress and torsion in shafts.
1. Apply strengths of materials to solve problems related to stress and strain, bending stress, beam deflection and torsion (C3).
2. Construct stress strain curve, bending moment and shear force diagrams using correct techniques (C5).
3. Study the theory of strength of materials related to engineering field in groups (A3).
JJ 5
12
Pneum
atic
& H
ydra
ulic
s
3
PNEUMATICS & HYDRAULICS
Provides knowledge and understanding to the importance of pneumatics and hydraulics circuits, equipment and design along with its usage in the industry sector.
1. Classify the basic concept and function of pneumatic and hydraulic system (C4)
2. Construct accurately pneumatic, electro-pneumatic and hydraulic circuit (P5)
3. Report briefly the pneumatic and hydraulics experiments in group.(A3)
66
SYNOPSIS AND COURSE LEARNING OUTCOME
Discipline Core
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 5
13
Engin
eerin
g D
esig
n
3
ENGINEERING DESIGN Provides knowledge on basic engineering design. It emphasizes mathematical analysis for simple component design in engineering such as key, pin joint, bolt, nut and welding. It also provides knowledge on gear design and selection of bearing.
1. Explain the basic concept of design process of engineering product or component. (C2)
2. Design the simple engineering components using mathematical analysis method according to safe load limitation. (C5)
3. Relate the basic concept and principle to solve the problems in of engineering design. (A4)
67
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DMA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JF
201
Manufa
ctu
ring C
ontro
l
2
MANUFACTURING SYSTEM Explains the terminologies and concepts that are necessary in the learning of manufacturing system. It provides knowledge regarding production control objectives and activities, importance of quality control and the function of maintenance. It also emphasizes on production planning, operation management, work study, quality assurance, machine maintenance and materials handling.
1. Explain clearly the basic concept related in manufacturing system. (P2)
2. Apply different method in manufacturing system. (C3)
3. Select correctly materials handling system and machine maintenance in manufacturing system. (A2)
JJ 3
11
Mechanic
s o
f Machin
es
2
MECHANICS OF MACHINES Exposes the students with knowledge on basic techniques and concepts of mechanics of machines. This course also gives knowledge on how to create and use simple methods to solve problem in relation to hoists, friction, simple harmonic motion, velocity and acceleration diagram, friction and belt drives.
1. Solve problem related to hoist system, simple harmonic motion and angular motion by using mathematic, science and engineering fundamental concepts correctly.(C3)
2. Use the basic techniques and concepts of mechanic of machine to solve problems relate to friction, balancing and belt drive correctly.(C3)
3. Study the theory in mechanics of machine related to engineering field in groups.(A3)
JV
501
Com
pute
r Inte
gra
ted M
anufa
ctu
ring
2
COMPUTER INTEGRATED MANUFACTURING is introduced along with the ideas of flexible and fixed types of automated system. Process for integration of automated system and the specific process are the acquisition and implementation of the hardware and software for the production cells in the manufacturing system
1. apply the concept of CIM in automation system. (C3)
2. integrate the manufacturing automation and give respond in work application. (P4)
3. dentify the effectiveness of CIM through engineering issue in group. (A2)
68
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DMA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JV
502
Industria
l Robotic
s
3
INDUSTRIAL ROBOTS AUTOMATION explains definition, advantages and disadvantages of using robotics automation especially in manufacturing industry. Fundamental mechanical concept for robots automation is also explained. Robots Automation components and classification are examined. Selected programming languages and applications are also discussed. Safety standard, maintenance process and cost are also emphasized. The course ends with designs robots automation system by using programming languages
1. 1. apply robotics automation fundamental in engineering industry. (C3)
2. demonstrate practical skills using programming language to design robotics automation system. (P7)
3. solve problem that related in robots automation industry. (A5)
JV
503
Applic
atio
n A
uto
ma
tion S
yste
m
2
PNEUMATICS & HYDRAULICS SYSTEM provides knowledge, understanding and designing of advance pneumatic and hydraulic circuit in automation technology with its usage in manufacturing industries
1. apply fundamental of Pneumatic& Hydraulics in automation technology. (C3)
2. construct the advance circuit in pneumatic & hydraulic system in order to troubleshoot and maintenance. (P7)
3. solve problem of pneumatic and hydraulics system based on engineering issue. (A5)
JM
506
Pro
gra
mm
able
Logic
Contro
ller
3
PROGRAMMABLE LOGIC CONTROLLER (PLC) Provides knowledge regarding the concept and basic principle of automation systems as well as PLC. This course emphasizes on the use, design process, programming and maintenance method of automation systems as well as PLC. This course also provides knowledge and skill training to construct automation systems based on the use of PLC systems.
1. Identify the types of automation system. (A4) 2. Apply the use of relays, contactors, timer and
counter in PLC operation.(C3) 3. Build the Ladder Program for various
operation of automation.(P5)
69
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DMA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JM
507
Contro
l Syste
m
2
CONTROL SYSTEM Provides knowledge regarding various concepts of feedback control system and the required mathematical methods. The emphasis of the course is on control action, pneumatic control, hydraulic control and frequency response. This course also provides knowledge in analyzing and designing stability and performance test.
1. Indentify the term in control system and function types of a controller. (A4)
2. Apply the transfer function equations, signal flow graph and block diagram based on controller system.(C3)
3. Identify the stability of a control system.(P1)
JF
510
Industria
l Main
tenance
2
INDUSTRIAL MAINTENANCE Aims to enable the learners to develop the knowledge in the maintenance of engineering components and assemblies. Upon successful completion of this course the learner will be able to describe the machine components/assemblies and repair or obtain replacements for damaged parts then re-assemble and fit the components/assemblies.
1. Differentiate the engineering maintenance procedures (C4)
2. Identify clearly the different method of power transmission, lubricants used in industry and various types of conveying system and components.(A4)
3. Construct the preventive maintenance for electrical and mechanical components.(P4)
JJ 5
14
Pro
ject 1
1
PROJECT 1
Prepares students with basic skills knowledge in presentation and preparing a well written paperwork. This module emphasize on personal development in self cleanliness, self confidence, positive mindset and effectiveness of communication skills. It also trains students in preparing a good presentation.
1. Demonstrate self cleanliness, self confidence and positive mindset in presentation
2. Demonstrate a good speaking and listening skills in presentation
3. Prepare a good proposal D 4. Deliver a good and interesting presentation
70
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DMA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 6
14
Pro
ject 2
2
PROJECT 2 Introduces the students to the concept in conducting a design or case study. The students select a project, list the project needs, the project process involve, cost estimation, project schedule and applied appropriate methodology in the project planning. It also involves project implementation, project report and presentation.
1. Apply the concept in conducting a design or case study.
2. Determine the design or case study to be carried out through discussion with group members and supervisory lecturer.
3. Apply appropriate methodology to the design or case study.
4. Conduct the project based on the planned design or case study.
5. Produce a complete project report and presentation.
JM
609
Pow
er T
ransfe
r Mechanis
m
2
POWER TRANSFER MECHANISM Introduces and reveals element mechanism movement power and converter common use. This module includes chain, bearing, gear, cam, followers, coupling, clutch and brake. This module give knowledge on working principle elements power transfer mechanism and students would be able choose and form power transfer mechanism.
1. Classify types of power transfer mechanism are used at machines.(C4)
2. Use knowledge studied to choose power transfer mechanism suitable with state using or design that machine. (A1)
3. Show the theory and principle of physical dimension and power or tork who can transfer through power transfer mechanism.(P2)
JM
610
Basic
Pow
er E
lectro
nic
2
BASIC POWER ELECTRONIC AND APPLICATION Provides knowledge on widely used motor control concepts especially those in high power industry. The course focuses on basic concepts of Power Electronic and applications with DC and AC motor control covering construction of DC and AC electrical drives.
1. Classify basic concepts of semiconductor components, and explain and specify its characteristics. (C4)
2. Understand and can explain the techniques of AC to DC converter using rectifier, chopper, inverter, cycloconverter and pulse width modulated (PWM). (A4)
3. Display the DC and AC motor control system. (P4)
71
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRP)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JD
201
Pro
duct D
esig
n 1
2
PRODUCT DESIGN 1 covers the history of design and the basic principles of design. Students will learn the fundamental concepts for designing and appreciate the art of designing. Students also acquire analytical thinking through critic sessions. This course also provides the basic knowledge of designing ethic.
1. discover the history of products design and the philosophy behind the design and manufactured products. (C3)
2. sketch the design using the knowledge of basic elements and the principles of product design. (P4)
3. nterpret the concept and codes design of professional ethics in international
context. (A2)
JD
202
Erg
onom
ics
2
ERGONOMICS covers the ergonomics awareness, human biomechanics, anthropometry, selection, design and arrangement of control and displays and design application. Students are made aware of human factors considerations in product design.
1. discover the ergonomic factor towards human biomechanics and anthropometry needed in work systems involving people and machine. (C3)
2. apply principles of ergonomic and demonstrate it to the existing devices or new
product. (P2, A2)
JD
301
Pro
duct D
esig
n 2
3
PRODUCT DESIGN 2 introduces methods and techniques of drawing and sketching from the idea stage through to the manufacture stage. Students will use hand sketches, model making, and
afterwards to be able to communicate the idea and purpose of the design using presentation panels.
1. generate hand sketches and drawing from portfolio exercises. (C3)
2. 2. create hand drawn renderings from initial s sketches to final detail drawings and reproduce the design model base from their final detail drawings. (P3)
3. present their designs systematically andclearly using Layout Boards/Panels. (A3)
72
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRP)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JF
302
Mate
rial T
echnolo
gy 1
2
MATERIAL TECHNOLOGY 1 Provides students an understanding on pure metal, alloy and other non-metal materials that are commonly used in the engineering field, including a study on metal and alloy microstructure. Students also learn the processes of metal work and specific materials used to produce engineering components.
1. Explain various types of materials used in manufacturing industry.(C2)
2. Synthesize course knowledge into an effective course assignment and present technical findings both orally and in writing.(A4)
3. Show various principles of material testing and material defects .(P2)
JD
303
Pro
duct D
esig
n D
evelo
pm
ent
3
PRODUCT DESIGN DEVELOPMENT covers the development of design ideas and specifications, planning on production details, appreciate on how quality standards affect the client design brief and present a design solution following consideration of the current market demands.
1. apply the terminology used in product design development.(C3)
2. identify the design through considerations in aspects of design product and characteristics of a good design.(P3)
3. produce idea contain the overall view of the design brief , investigate onchosen topic and develop the 3D visual/form.(A2)
4. organize properly a presentation including prepare the materials and models.(A4)
JD
501
Pro
duct D
esig
n 3
2
PRODUCT DESIGN 3 will expose the student to Advance Computer Solid Modeling Software. Students will able to sketch and create a solid model part using the software
and afterwards create a assembly model consisting of a minimum of 2 components. Students will later generate a production drawing from the software. In the second part the student will be introduced to the Rapid Prototyping process and its relevance to the design process.
1. draw model a 3D Solid model component in the 3D software.(P2)
2. assemble 2 or more 3D solid part components precisely and produce production drawing in 4 orthographic views.(C3)
3. differentiate 3 Rapid Prototyping process.(A2)
73
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRP)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JD
504
Pro
duct D
esig
n M
anagem
ent
2
DESIGN MANAGEMENT course of product design to reveal the practical principles and implemented in project management. It is involves in all aspects relating to the techniques of control, coordination, communication, report preparation and consulting projects conducted in project management.
1. describe the management of product design in accordance with the requirement of business responsibilities of each role.(C3)
2. develop essential elements in the proposed project with the roles and responsibilities. (A3)
3. apply the project planning methods using the suitable technique.(C3)
4. identify effective methods of reporting the project cost.(A2)
5. determine the appropriate method to use in negotiations with effective communication.(P3
JF
504
CA
D C
AM
2
CADCAM Explain the theory and basic of coding languages, structure and the use of CAD/CAM systems for generating and verifying tool path. Besides that, students will learn how to create various machining code and transfer to CNC machine using CADCAM software. Students also exposure to modern manufacturing system as well as Flexible Manufacturing System (FMS), Computer Integrated System (CIM) and Reverse Engineering(RE).
1. Intergrate correctly of CAD,NC and CAM with the CNC Milling and Turning (A4)
2. Initiate successful G and M codes by utilizing CADCAM software during milling,turning and hole making process (P7)
3. Decribe clearly and present information the overall picture of modern manufacturing system. (C1)
JJ 5
14
Pro
ject 1
1
PROJECT 1
Prepares students with basic skills knowledge in presentation and preparing a well written paperwork. This module emphasize on personal development in self cleanliness, self confidence, positive mindset and effectiveness of communication skills. It also trains students in preparing a good presentation.
1. Demonstrate self cleanliness, self confidence and positive mindset in presentation
2. Demonstrate a good speaking and listening skills in presentation
3. Prepare a good proposal D 4. Deliver a good and interesting presentation
74
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRP)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JJ 6
14
Pro
ject 2
2
PROJECT 2 Introduces the students to the concept in conducting a design or case study. The students select a project, list the project needs, the project process involve, cost estimation, project schedule and applied appropriate methodology in the project planning. It also involves project implementation, project report and presentation.
1. Apply the concept in conducting a design or case study.
2. Determine the design or case study to be carried out through discussion with group members and supervisory lecturer.
3. Apply appropriate methodology to the design or case study.
4. Conduct the project based on the planned design or case study.
5. Produce a complete project report and presentation.
JD
605
Manufa
ctu
ring P
rocess
3
MANUFACTURING PROCESS provides knowledge on concepts of fundamental manufacturing, metal casting process, forming and shaping process and powder metallurgy. This course also provides knowledge in manufacturing processing parameters that influence design consideration and produce a quality product.
1. classify the manufacturing process of converting raw material into product with design consideration for concurrent manufacturing industry.(C3)
2. identify different types of process sequence, concept and equipment need for casting processes, forming and shaping processes and powder metallurgy process.(P3,A2)
75
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JA
101
Auto
motiv
e T
echnolo
gy 1
2
AUTOMOTIVE TECHNOLOGY 1 Provides a foundation to students in an engine construction, classification and working principles. Students are also exposed to the knowledge and understanding in cooling system, lubrication system, ignition system, vehicle classification, suspension system and tyre and wheel alignment.
1. Explain the construction, classification and operating principles of an internal combustion engine (C2)
2. Sketch and explain the working principles most of the systems in an engine (P5)
3. Identify and solve the problems that are related to suspension system and tyre (A4)
JA
102
Auto
motiv
e W
ork
shop P
ractic
e 1
2
AUTOMOTIVE WORKSHOP PRACTICE 1 Provides basic automotive related skills which focus on safety practice on health, environment and welfare, complete engine overhaul (SOCH Engine), brake system servicing, tyre servicing, basic wiring circuit for Head light, alternator current output test and stator motor service.
1. Identify correctly and apply the safety practice on health, environment, equipment and welfare.
2. Identify correctly the proper use of basic measuring tools and equipment.
3. Carry out minor service for petrol engine correctly according to standard procedure practiced.
4. Service tire and suspension system properly according to standard procedure practiced.
5. Perform welding and fitting appropriately according to standard procedure practiced.
JA
201
Auto
motiv
e T
echnolo
gy 2
2
AUTOMOTIVE TECHNOLOGY 2
Introduces student to the knowledge of the fuel delivery system, brake system, steering system, cranking system, charging system, clutch system and manual transmission system.
1. Explain the functions and working principles most of the system in automotive (C2).
2. Sketch and explain the working principles most of the system in automotive (P5).
3. Identify and solve the problems that are related to the systems in automotive (A4).
76
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JA
202
Auto
motiv
e W
ork
shop P
ractic
e 2
2
AUTOMOTIVE WORKSHOP PRACTICE 2 Provides basic automotive related skills which focus on safety practice on health, environment and welfare, complete engine overhaul (DOCH Engine), brake system servicing, tyre servicing, basic wiring circuit for Head light, alternator current output test and stator motor service.
1. Explain and apply safety practice on health, environment and equipment. (C2)
2. Dismantle and assemble engine and chassis components. (P4)
3. Perform basic wiring circuit and services in starting and charging system. (A2)
4. Practice safety procedure correctly in the workshop according to the workshop safety regulation.(A2)
JI 3
01
Auto
motiv
e P
roduct D
esig
n
2
AUTOMOTIVE PRODUCT DESIGN A robustic course that enables the creation of rich and complex designs highly demanded in contemporary design industry in particular the automotive industry. The main aim of introducing AUTOMOTIVE PRODUCT DESIGN course is to impart knowledge as well as practical skill on creating simple parts and assembly drawings using software.
1. State the fundamental features of the computer-assisted design software.
2. Draw simple drawings of parts, wireframe, surface and assemblies.
3. Plan, manage and assemble systematically designs created.
4. Develop sample automotive component by using the designing principles.
JI 5
02
Auto
motiv
e M
anufa
ctu
ring P
rocess
2
AUTOMOTIVE MANUFACTURING PROCESS
Provides students with an understanding on basic design and manufacturing process including a study of forming and shaping process, joining processes. Students also learn the process of rapid prototyping and surface textile on the quality of an engineering component.
1. Discover the concept manufacturing and design process in Automotive Industry.(C2)
2. Discuss the fundamentals of manufacturing and finishing process in automotive industry environment. (A2)
77
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JI 5
03
Pro
ject M
anagem
ent
2
PROJECT MANAGEMENT Provides knowledge on defining the job, plan the work, and control it according to plan, enabling the students to understand the scope of the project, the timeline, include deciding the beginning of work, the progress of work, managing costs, managing human resources and implementing a plan for communication. This course examines project management roles and environment, the project life cycle and various techniques of work planning, and control and evaluation to achieve project objectives.
1. Explain the key activities in managing automotive production activities and project control tools.(C2)
2. Explain the importance of developing and working with the team and understand the key general management skills. (C2)
3. Discuss the issues involved in setting up, managing, and closing out a project and develop an effective strategy for resolving them. (A2)
JF
504
CA
D C
AM
2
CADCAM Explain the theory and basic of coding languages, structure and the use of CAD/CAM systems for generating and verifying tool path. Besides that, students will learn how to create various machining code and transfer to CNC machine using CADCAM software. Students also exposure to modern manufacturing system as well as Flexible Manufacturing System (FMS), Computer Integrated System (CIM) and Reverse Engineering(RE).
1. Intergrate correctly of CAD,NC and CAM with the CNC Milling and Turning (A4)
2. Initiate successful G and M codes by utilizing CADCAM software during milling,turning and hole making process (P7)
3. Decribe clearly and present information the overall picture of modern manufacturing system. (C1)
JF
607
Manufa
ctu
ring C
ontro
l
2
MANUFACTURING CONTROL Provides knowledge about basic principal and concept how to manage an organization, major levels in manufacturing planning and control system (MPC) which are making forecast, production plan, control production and manage inventory. This course also gives knowledge on how to handle product movement during manufacturing processes, starting from ordering raw materials until the products completed by looking at supply chain management, Just In Time (JIT) and capacity planning. It also includes knowledge on computer application in managing MRP system (material management), production scheduling and inventory management.
1. Relate the principles and concept of Manufacturing Planning & Control and Forecasting in organizing the manufacturing management. (A4)
2. List the various principles in controlling the manufacturing process activities. (C4)
3. Explain clearly the management of Material Requirement Planning (MRP) and Inventory system. (P2)
78
SYNOPSIS AND COURSE LEARNING OUTCOME
Specialization (DRA)
CO
UR
SE
CO
DE
CR
ED
IT H
OU
R
SYNOPSIS CLO
JF
609
Jig
s, F
ixtu
res &
To
olin
g D
esig
n
3
JIG, FIXTURES AND TOOLING DESIGN Exposes the students to the knowledge of datum concept, geometric tolerances, and fundamentals to build the tooling based on clamping and locating principle. The topics are also covered principle of tooling applications in metal and non-metal process. All the topics discussed will help the students to understand and able to plan and identified use of tooling. Students will also expose to the application of tooling in related industries.
1. Classify the fundamental of jig, fixtures and tooling design. (C4)
2. Formulate the drawing, design and tooling components. (A4)
3. Construct mould design considerations and construction. (P4)
JJ 5
14
Pro
ject 1
1
PROJECT 1 Prepares students with basic skills knowledge in presentation and preparing a well written paperwork. This module emphasize on personal development in self cleanliness, self confidence, positive mindset and effectiveness of communication skills. It also trains students in preparing a good presentation.
1. Demonstrate self cleanliness, self confidence and positive mindset in presentation
2. Demonstrate a good speaking and listening skills in presentation
3. Prepare a good proposal D 4. Deliver a good and interesting presentation
JJ 6
14
Pro
ject 2
2
PROJECT 2
Introduces the students to the concept in conducting a design or case study. The students select a project, list the project needs, the project process involve, cost estimation, project schedule and applied appropriate methodology in the project planning. It also involves project implementation, project report and presentation.
1. Apply the concept in conducting a design or case study.
2. Determine the design or case study to be carried out through discussion with group members and supervisory lecturer.
3. Apply appropriate methodology to the design or case study.
4. Conduct the project based on the planned design or case study.
5. Produce a complete project report and presentation.
79
STUDENT SUPPORT SERVICES
Total Block 5 (Male) 5 (Female)
Total Room 670 670
Total Beds
1800 1800
Facilities Capacity
Hostel Office Hostel Supervisor Office and Warden Office
Cafeteria 2 Food Stalls
Wash room At each Level of hostel (5 levels)
Recreation Room 2 at 1 block of Man Hostel 2 at 1 block of female Hostel
Surau
At each Block (1 room)
Sick Bay
2 room (1 male hostel & 1 female hos-tel)
WIFI Cafeteria Area and Co-op Shop
ACCOMMODATION Hostel – Conducive, safe, comfortable and peaceful accommodation for learning Accommodation in the hostel: New students – will be given priority Existing students – accommodation will be offered if vacant room is available through the selection process based on the criteria determined by Polytechnic. The criteria includes social economic, home distance, academic and co-curriculum achievement, contribution and disciplinary performance.
Capacity:
Supporting Facilities:
STUDENT FACILITIES
Department of Mechanical Engineering
80
Company Scope Sum Covered
Takaful Malaysia Berhad Premium: RM15.00 yearly Students are insured 24 hours during their studies in Politeknik Muadzam Shah, Pahang
Death (Natural Cause) Death (Accidental Cause) Total Permanent Disablement (Natural Cause) Total Permanent Disablement (Accidental Cause) Partial Permanent Disablement (Natural Cause) Partial Permanent Disablement (Accidental Cause) Critical Illness (Accelerated) Accidental Medical Reimburse-ment Hospital Benefit Funeral Expenses / Repatriation
RM4,750.00 RM9,500.00 RM4,750.00 RM9,500.00 RM9,500.00 RM1,000.00 RM1,000.00
HEALTH SERVICES
Equipped with first aid facility.
Hostel Supervisors are responsible to provide transportation service for sick students when medical treatment is needed in the office hour. While this duty will be taken by wardens after office hour.
Periodic food quality monitoring in the cafeteria/canteen will be carried out periodically.
INSURANCE
INSURANCE OVERVIEW All the students are insured using Takaful protection known as ‘Group Term Family Takaful’. Agency and Insurance Company The policy chosen is based on Takaful accordance. Generally, the premium, the scope and the sum assured are issued by the insurance company chosen. Currently, the students in Politeknik Muadzam Shah are subjected to Takaful protection by Syarikat Takaful Malaysia Berhad. The follow-ing table lists the scope and sum assured by the company.
STUDENT FACILITIES
Department of Mechanical Engineering
81
Steps to be taken if accidents occur:
Students could get medical treatment from Public or Private Hospital
Academic Advisor/Student/Next of Kin should inform the details of the accident to the Student Affairs Department within 5 days from the date of occurrence.
The Student Affairs Department will inform the insurance company within 24 hours from the date of report received.
Insurance Claim Form will be given to the student for claim purpose.
A completed form with supporting documents should be submitted to the Student
Affairs Department for futher process by the insurer. The supporting documents for the claim:
A copy of MyKad / IC
A copy of Birth Certificate
A copy of Police Report/ Factory etc.
The Doctor’s / Medical Report/Post Mortem
Burial permit (applicable for death claim)
A copy of death certificate (applicable for death claim) FINANCIAL AID Scholarships
Yayasan-yayasan Negeri
Jabatan Hal Ehwal Orang Asli (JHEOA) Loans
Perbadanan Tabung Pendidikan Tinggi Malaysia (PTPTN)
Tabung Pinjaman Pendidikan Kementerian Pengajian Tinggi Malaysia (KPT) SPORTS & CULTURAL PMS provides its community with a wide range of facilities for fitness and leisure activities. The facility provides a comfortable environment for both students and staff to
STUDENT FACILITIES
Department of Mechanical Engineering
82
List of Recreational Facilities & Other Amenities are as in table below:
NO.
RECREATIONAL AND FACILITIES AND OTH-ERS
QUANTITY
1. Football Field 1
2. Rugby Field 1
3. Netball Court 4
4. Basketball Court 2
5. Volleyball Court 4
6. Tennis Court 4
7. Futsal Court 3
8. Badminton Court 8
9. Gymnasium 1
10. Archery equipment 4
11. Tennis Table 10
12. Sport Complex 1
13. Squash Court 2
14. Swimming Pool 1
15. Wood Ball equipment 10
16. Golf Equipment 2
17. Synthetic Track 1
18. Music equipment 6 Guitar / 1 Drum set / Nasyid Instrument Set
19. Kayaking equipment 14
20 Hockey Court 1
21 Mountain Bike 6
Table: Recreational Facilities & Other Amenities
STUDENT FACILITIES
Department of Mechanical Engineering
83
NO FACILITIES
1 Individual Counseling Room- 2
2 Discussion / Group Counseling Room – 1
Table: Facilities
UNIT OF PSYCHOLOGY & CAREER (UPK) Unit of Psychology & Career Polytechnic Muadzam Shah (UPK PMS) is the unit responsible for providing effective services to students in particular to the process of enrichment and development expand along with the students' academic development. This unit consists of a Career in Psychology Officer assisted by Guidance & Counseling Department Coordinator appointed by the respective department heads. This unit is responsible for implementing the terms of reference as follows: 1. Managing Individual Counseling Services 2. Managing Group Counseling Services 3. Managing Career Counseling Services 4. Managing Lecture 5. Managing Study Visit 6. Managing Control Workshop / Course 7. Managing Exhibition 8. Managing PRS Polytechnic Training
STUDENT FACILITIES
Department of Mechanical Engineering
84
ROLE OF AN ACADEMIC ADVISOR
Academic advising is an essential element of the educational process. The aca-
demic advisor is a member of the teaching staff who will be guiding students
on academic matters throughout their tenure in the polytechnic.
The role an academic advisor:
Assists the student in obtaining a well balanced education and in interpreting
polytechnic policies and procedures. The academic advisor approves the students’
academic schedules each semester
Advise the students on the courses s h e / he should take during a particular
semester.
Will inform the students about the pre requisites and the minimum or maxi-
mum number of credit hours a student is eligible to take.
Will provide the information about the students GPA , CGPA etc.
STUDENT FACILITIES
Department of Mechanical Engineering
85
ASSESSMENTS
GRADING POINT SYSTEM
Under Polytechnics’ assessment system, student’s performance is being meas-
ured on the basis of quantitative method and being known as Grading Point Sys-tem (GPS).
In the Grading Point System, there are measures to evaluate student’s perfor-mance:
GRADE POINT AVERAGE (GPA) -PNM
The average grade of a student for a given semester is being computed by tak-ing the sum of the courses’ credit hours and grade point divided by the total credit hours taken in that semester.
Formula: GPA = Total credit hours x Grade point Total credit hours taken in that semester
CUMULATIVE GRADE POINT AVERAGE (CGPA) -HPNM
The sum of the courses’ credit hours and the grade point for all courses taken in all semesters, divided by the total credit hours taken in all semesters.
Formula: CGPA = Total credit hours x Grade point in all semester Total credit hours taken in all semester = 290
90 = 3.22
STUDIES INFORMATION
Department of Mechanical Engineering
86
SAMPLE GPA CALCULATION The table below gives the grades obtained by a student during first semester at diploma level.
GPA = Σ (Credit hours X Credit points) ÷ Σ Total Credit hours
= {(2X4) + (2X3) + (1X4) + (2X3.33) + (2X3.67) +(1X3.67) + (1X3) + (2X3.33) +
(2X4) + (3X3.33) } ÷ {2+2+1+2+2+1+1+2+2+3}
= 63.32 ÷ 18 = 3.51
Therefore, Semester GPA = 3.51
CODE COURSE TITLE CREDIT
HOURS
GRADE
ACHIEVED
GRADE
POINTS
AA Islamic Education 1 2 A 4.00
Moral Education 1 2 Moslem -
Communicative English 1 2 B 3.00
AR 101 Co-Curriculum 1 A 4.00
Engineering Mathematics 1 2 B+ 3.33
Engineering Science 2 A- 3.67
BC 101 Computer Application 1 A- 3.67
JJ 101 Engineering Drawing 1 B 3.00
JJ 108 Mechanical Workshop
Practice 1 2 B+ 3.33
JJ 104 Workshop Technology 1 2 A 4.00
JJ 205 Engineering Mechanics 3 B+ 3.33
Credit Total 18
STUDIES INFORMATION
Department of Mechanical Engineering
87
COURSE CREDIT HOUR
Total credit hours taken by students are in between 12 to 20 credit hours every semester
which have been stated in the Curriculum Document and Program Structure.
A minimum total credit hours shall be fulfilled before the students are qualified to be awarded a Diploma (including advanced diploma) which has also been stated in the cur-riculum document and program structure.
REGISTER COURSE
Students must register within fourteen days (14) of the commencement date of each se-mester.
Students should get an advice from the Academic Advisor and get approval from the
Head of Commerce Department before registering the courses.
Students should register the repeated course/s in the current semester if that particular course/s being offered except, there was undue circumstances. Therefore, students must get an approval first from the Head of Commerce Department.
If students fail to register the repeated course/s or any course/s that should be taken in the particular semester:
The student will be given Grave F with the grade point equivalent to 0.00 for that particu-lar course; and
The student will be assumed as has already taken the course and failed it.
GRADING SYSTEM (Intake before Jun 2012)
A student will be evaluated based on the following mark scales, grades and grade
points as being outlined in Table below:
Mark Scale Grade Point Grade Status
80 – 100 4.00 A Distinction
75 – 79 3.67 A- Credit
70 – 74 3.33 B+ Credit
65 – 69 3.00 B Credit
60 – 64 2.67 B- Pass
55 – 59 2.33 C+ Pass
50 – 54 2.00 C Pass
45 – 49 1.67 D Fail
44 – 46 1.33 D- Fail
40 – 43 1.00 E+ Fail
30 – 39 0.67 E Fail
20 – 29 0.33 E- Fail
0 – 19 0.00 F Fail
STUDIES INFORMATION
Department of Mechanical Engineering
88
ADD COURSE
Course adding can be done on the 3rd until the 6th week of an academic session. Students should get an advice from the Academic Advisor and obtain an approval from the Head of Commerce Department.
DROP COURSE
Students are allowed to drop the course with one condition that the students’ credit hours are not less than 12 hours.
Course’s dropping can be done on the 3rd until the 6th week of an academic ses-
sion. Students should get an advice from the Academic Advisor or the Head of Program, and obtain an approval from the Head of Commerce Department.
REPEAT COURSE
Student who fails two or more courses in previous semester is required to repeat that particular course/s in any semester after getting confirmation from the Exami-nation Board.
ASSESMENT RESULT CATEGORY
Assessment result for each semester can be categorized into:
Pass status
Student who obtains a CGPA (Cumulative Grade Point Average) equiv-alent to or more than 2.00.
Conditional pass status
Student who obtains a CGPA (Cumulative Grade Point Average) equiv-alent to or more than 1.60 and less than 2.00.
Fail status
Student who obtains a CGPA (Cumulative Grade Point Average) less than 1.60.
Student who obtains a GPA (Cumulative Grade Point Average) less than 1.00 except for final semester student and part-time student.
Student who fails in any courses for three times including the special final examination.
STUDIES INFORMATION
Department of Mechanical Engineering
89
GRADING SYSTEM (Intake Jun 2012)
A student will be evaluated based on the following mark scales, grades and grade points as being outlined in Table below:
CRITERIA TO GRADUATE UNDER NEW GRADING SYSTEM A student will graduate from his/her studies for a program if he/she fulfills the criteria below: I. Pass all courses under a program; II. Obtain a CGPA (Cumulative Grade Point Average) equivalent to or more than
2.00; III. Obtain sufficient total credit hours for a program; IV. Student who obtain the minimum passing grade (C-, D+ and D) is allowed to
repeat the course only once to improve their grade for the next semester includ-ing the short semester. Only the higher grade calculation will be taken into the result without adding the credit hour.
V. Fulfill all program's requirement and certified by the Lembaga Peperiksaan.
Mark Scale Grade Point Grade Status
90 – 100 4.00 A+ High Distinction
80 - 89 4.00 A Distinction
75 – 79 3.67 A- Credit
70 – 74 3.33 B+ Credit
65 – 69 3.00 B Credit
60 – 64 2.67 B- Pass
55 – 59 2.33 C+ Pass
50 – 54 2.00 C Pass
45 – 49 1.67 C- Pass
44 – 46 1.33 D+ Pass
40 – 43 1.00 D Pass
30 – 39 0.67 E Fail
20 – 29 0.33 E- Fail
0 – 19 0.00 F Fail
STUDIES INFORMATION
Department of Mechanical Engineering
90
ALUMNI
PROGRAM DURATION
Duration of a full-time program are as follows: Advanced Diploma (for Diploma graduate)
Minimum is four (4) semesters
Maximum is eight (8) semesters
Diploma
Minimum is five (5) semesters
Maximum is nine (9) semesters
Student that has been charged disciplinary action (will be suspended under Act 174) is included in the duration of study.
The period of deferment that has been approved by the Director of Polytechnic will not be computed as part of the period of study.
The alumni assist students preparing for their professional future through: Their own success stories Career Information Seminars/Talks on career
Alumni/polytechnic graduates are expected to provide their feedback through the Tracer Study which is carried out annually. 85% of polytechnic graduates take part in this Tracer Study in order to provide their feedback pertaining to the curric-ulum taught and their mandatory 6-month industrial experience. All these input serves provide the basis for curriculum development, achievement of learning outcomes and future programs.
Details of Alumni of Politeknik Muadzam Shah are as follows:
Address : Persatuan Alumni Politeknik Muadzam Shah Rompin Pahang Lebuhraya Tun Abdul Razak 26700 Muadzam Shah Pahang Darul Makmur No Telefon : 09 – 4502005 No. Faks : 09 – 4502009 Website : www.pms.edu.my or www.politeknik.gov.my
STUDIES INFORMATION
Department of Mechanical Engineering
91
INDUSTRIAL TRAINING
INTRODUCTION TO INDUSTRIAL TRAINING Industrial Training (LI) is part of the curriculum requirements that must be fulfilled by the students before they are award-ed with Diploma from Polytechnic. Diploma students will undergo their LI in Semester 4. Duration of the LI is 20 weeks where the students are spreads to selected firms and organizations all over the country. LI programme will be conducted on January and June session every year. Before the students are allowed to undergo the LI, they should pass the pre-requisite subject, i.e. Soft Skills module. PREPARATION FOR INDUSTRIAL TRAINING Once eligible, the students need to follow proper proce-dures for the LI. The students are required to apply for LI placement from the firms or organizations that offered LI via the Industrial Training Officer of Department (PLIJ) respec-tively. It is advisable that the LI should be relevant to the students’ academic courses of study. The following documents will be issued by the PLIJ to be used in the application for a placement in the firms or organ-izations:
Industrial Training Application Letter/Surat Memohon
Tempat Latihan Industri - that has Polytechnic's letter-head
Reply Form/Borang Jawapan - that has to be submitted to the firms/organizations
INDUSTRIAL TRAINING
Department of Mechanical Engineering
92
INDUSTRIAL TRAINING
DURING INDUSTRIAL TRAINING The confirmation of the LI attachment is done when the students submit the following documents for verification purpose on the registration of the LI day at each respective firms/organizations:
Letter of Report Duty/Surat Lapor Diri - that has Polytechnic's letterhead
Polytechnic Student's ID card/Kad Pelajar
Letter of Indemnity/Surat Lepas Tanggung
End of Training Confirmation Letter/Surat Tamat Latihan Industri
Log Book/Buku Log - available in PMS Co-operative Shop
Performance Evaluation Form/Borang Penilaian Pelajar An academic supervisor will be assigned to each of the students. The academic su-pervisor (or representative) will visit the students at the firms/organizations during the LI and thus, will be evaluated. COMPLETION OF INDUSTRIAL TRAINING After completing the six months of LI, the students are required to re-register to the Polytechnic with the End of Training Confirmation Letter and fee payment bank slip that will be posted to the students' latest address. Upon completion, the students are required to prepare a technical report about their LI. The students are expected to include information related to the job/task which they have undergone during LI in the write up and shall submit both report and log book to the PLIJ.
INDUSTRIAL TRAINING
Department of Mechanical Engineering
93
Squash Court Multipurpose Court
Swimming Pool Futsal Court
Tennis Court Basketball Court
OTHER FACILITIES
Department of Mechanical Engineering
94
Gym Football Field
Jogging Track Rugby Field
Volley Ball Court
OTHER FACILITIES
Department of Mechanical Engineering
95
ACTIVITIES
Department of Mechanical Engineering
96
NOTES
Department of Mechanical Engineering
97
NOTES
Department of Mechanical Engineering
98
Department of Mechanical Engineering
JKM
BLOCK
99
Department of Mechanical Engineering
EDITORIAL BOARD
Patron
MOHD FUAAD BIN FESUL
Advisor
NURUL AFIZAH BT ADNAN
MOHD SHAHRIL BIN MOHD HASSAN
MOHD RIZAL AZMAN BIN RIFIN
Lead Editor
NURUL AFIZAH BT ADNAN
SITI HANIS-SYAZANA BINTI MUHAMAD
Editor Members
ELIZA BIN SHAMSUDIN
MUHAMAD SYIRAZI BIN SUHAIMI
ADILREZA BIN SHAMSURI
All feedback or suggestions for the Handbook should be directed
to Administrator of Department of Mechanical Engineering Politeknik Muadzam Shah
100
DEPARTMENT OF MECHANICAL ENGINEERING
Politeknik Muadzam Shah
Lebuhraya Tun Abdul Razak 2
6700 Muadzam Shah
Pahang Darul Makmur
http://www.polimuadzam.edu.my
No Tel : 09 - 450 2005 / 2006
Fax : 09 - 450 2009