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CONTENT i.
PAGE
Content
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ii. Preface
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1. Introduction
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2. Vision & Mission of Polytechnic
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3. Academic Flow Chart
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4
Outcome-Based Education (OBE)
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5
Management Organisation Chart
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6. Mechanical Engineering Department (JKM)
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6.1 Department Organisation Chart
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6.2 Name of Lecturers
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6.3 Programme of Diploma In Mechanical Engineering
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6.4 Programme of Diploma In Mechanical Engineering (Manufacturing)
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6.5 Programme of Diploma In Mechatronic Engineering
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6.6 Lab Facilities In Mechanical Engineering Department
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6.7 Higher Academic Pathway
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7. Supporting Departments And Units
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7.1 Mathematic, Science and Computer Department (JMSK)
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7.2 General Studies Department (JPA)
70
7.3 Co-Curriculum
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8. Supporting Services
79
8.1 Student Affairs Department (HEP)
80
8.2 Examination Unit
81
8.3 Liaison & Industrial Training Unit
81
8.4 Sports Unit
82
8.5 Library
82
8.6 Psychology And Career Unit
83
8.7 Residential College
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9. Profesional Certification
85
10. Polytechnic Site Map
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11. Editorial Committees
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PREFACE Assalamualaikum wbt and Salam 1 Malaysia Dear students, It gives me great pleasure to welcome you to Politeknik Kota Kinabalu. We are honoured to be a part of your journey in pursuit of higher education. Here, we offer a holistic educational experience through various innovative teaching approaches. Guided by certified educators, you will receive an education that will prepare you to write, to think critically, to analyze, and to express yourself effectively. By the time you graduate, it is our hope that you would have become a confident, resourceful problem-solver and presenter who can be an asset to any organization. These next few years here will prove to be a crucial time in your lives. As you study, make new friends and have new experiences so you will learn new ways of thinking and be challenged to expand outside of your comfort zone. Though they will not always be easy, these are the years that will help you to develop who you are and the type of people you will become. I also encourage you to aggressively pursue your education by taking full advantage of all that PKK has to offer. Look outside of your chosen curriculum and participate in student organizations, and the wide array of extracurricular activities offered. It will broaden your network and nurture your creativity, interests and interpersonal skills. Life on campus is both enriching and exciting. We are confident you will make connections here that will last throughout your life, and will always remain connected to PKK and committed to supporting its distinctive vision and mission. In this handbook you will find PKK policies and procedures regarding everything from course components and grading to services that you may require. Here for your reference I encourage you to read it thoroughly so you will be well-prepared for your time here. If you have any questions that are not addressed in this book, PKK staffs are always on hand to assist you. Please do not hesitate to request our assistance. Thank you. Sincerely Haji Mustafar Kamar Bin Ujang
Director Politeknik Kota Kinabalu
ASDK
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1.0
INTRODUCTION
Politeknik Kota Kinabalu is a comprehensive, learner centered higher education institution that serves its local and regional learners and their communities through highquality and flexible education and training. It is aimed to develop student’s employability skills to meet the needs of a more dynamic economy, which values innovation and productivity. Programmes include a global perspective that will enable graduates to make a valuable contribution to the wider society as it changes in response to regional and international competition and demand.
PKK programmes include a variety of Outcome-Based Education teaching approaches, adding value to PKK teaching and learning which cater to students seeking a quality polytechnic education and training.
The PKK Programme Handbook provides students with information on many facets of college life such as policies, procedures, and services. It is written for every student enrolled in one or more courses at PKK. This Handbook is aimed to guide students through the various procedural steps that lead to a Diploma study. It also provides graduate program descriptions, the requirements needed to obtain a graduate Diploma, and a clear outline of the procedural steps that students need to follow. Students are also provided with information on matters related to general administration such as student services and facilities, campus disciplinary measures, student organizations and other relevant matters. This book serves as a preliminary guide and does not purport to completely address every policy, procedure and regulation. In addition no claim is made that this document covers all the rules and regulations in effect now at PKK. Students must refer to the relevant PKK Department programmes and services publications and other Departments and Units Policies for further information.
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2.0 VISION & MISSION DEPARTMENT OF POLYTECHNIC EDUCATION VISION To be Malaysia’s number one provider of innovative human capital through transformational education and training for the global workforce by 2015
MISSION Breaking boundaries for the creation of transformative and creative learning environment for an innovation-led economy
KOTA KINABALU POLYTECHNIC VISION To be the centre of excellence in technical and vocational field through education and transformational training to produce innovative human capital
MISSION Building a transformative and creative learning environment to generate marketable human capital
QUALITY OBJECTIVE Academic Excellence 1. To ensure the passing rate is not less than 90% in each semester. 2. To ensure at least 25% of the students accomplished the GPA of 3.00 or higher every semester. 3. To aim for 60% of diploma students passed the final examination every semester.
Staff Excellence 1. To ensure all staff attend courses / training for 10 days in a year. 2. To ensure staff training schedule is implemented at least 75% in a year.
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3.0
ACADEMIC FLOW CHART Week
Notes
START
Subject to the current academic calendar.
Week One (W1): - Industrial Training Students’ Registration - Senior Students’ Registration
• Industrial Training Unit (UPLI)
Polytechnic Registration
Week One (W1): - Senior Students’ Course Re istr istrat ation ion Week Two (W2): - Junior Students’ Course Registration Week 2 (W2) : Teaching & learning activities begin (16 weeks of lecture each semester)
Confirmation from the Academic Advisor and Course Lecturer
Course Registration in departments
Attendance is taken according to the lecture hour
Teaching & Learning Process
Week 5 (W5)
80% attendance review by the lecturers (W2-W5)
Week 6 (W6)
Final week to drop course
2 weeks before Final Examination begins
80% attendance review (W2- a week before Final Exam begins)
1 week before Final Examination begins
• Department of Student Affairs (HEP)
Letter is sent by the Academic Advisors to the students who obtained attendance below 80%
Confirmation from the Academic Advisor and Course Lecturer Course lecturers submit the names of students with attendance lower than 80% to the Head of Department to be barred from the final examination
Examination Officer issues a letter to detain students from final examination
Barred from Final Examination No
Repeat Yes 1 week before Final Examination begins
Appeal to sit for Final Examination
Student submits Letter of Appeal to the Examination Officer with relevant supporting evidence
Fail Pass Week 17 and 18 T&L (W17 & W18):
2 weeks after Final Examination ends
Final Examination
Examination Results finalized
END
Refer to Final Exam Exam Schedule Schedule issued by respective department
Check results from the website
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ACADEMIC FLOW CHART FOR SHORT SEMESTER Week
Notes
START
Subject to the current academic calendar. Confirmation from the Academic Advisor and Course Lecturer
Course Registration
Week 1 (W1)
Week 2 (W2) : Teaching & learning activities begin (7 weeks of lecture each short semester)
Teaching & Learning Process
Attendance is taken according to the lecture hour
Confirmation from the Academic Advisor and Course Lecturer
Final week to drop course
Week 3 (W3)
Course lecturers submit the names of students with attendance lower than 80% to the Head of Department to be barred from the final examination
80% attendance review (W2- a week before Final Exam begins)
Week 5 (W5) 2 weeks before Final Examination begins
Week 6 (W6) 1 week before Final Examination begins
Examination Officer issues a letter to detain students from final examination
Barred from Final Examination No Repeat Yes
1 week before short Semester Final Examination begins
Appeal for Final Examination
Student submits Letter of Appeal to the Examination Officer with relevant supporting evidence
Fail Pass
Week 8 (W8)
1 week after short semester Final Examination ends.
Final Examination
Examination results finalized
END
Refer to Final Exam Schedule issued by respective department
Check results from the website
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4.0
OUTCOME-BASED EDUCATION [OBE]
Outcome-based education (OBE) is an educational model for students to demonstrate their knowledge and able to perform according to the required outcomes. It is a student-centered approach that focuses on students’ learning. It starts with a clear picture of what students should know, what they should be able to do, and what desirable attitudes and values needed to organize the curriculum, instruction, and assessment to ensure an ultimate learning (Spady, 1994:1). Thus, OBE involves the restructuring of curriculum and assessment that reflects achievement of high learning order and mastery learning. OBE helps students to be aware of what they should learn, aware of what they are are learning and the control over their own learning. It leads to successful student learning and a nd encourages lecturers to be well prepared. It also provides students with appropriate, purposeful learning purposeful learning experiences and opportunities for students to develop originality, self-motivation and independence while acquiring useful knowledge and skills.
4.1
WHAT IS OUTCOME-BASED EDUCATION [OBE]
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4.2
ACREDITATION PROCESS
4.3
HOW DOES OBE AFFECT TEACHING-LEARNING?
Teacher - c entered
Course Objective is the Learning Target
Student Independent Learning Not Calculated
No mapping of learning of learning outcomes
Contact hours Reflects Credit value
St u d e n t - c e n t e r e d
Learning Outcomes is the Learning Target
Student independent Learning Time Calculated
Mapping of learning outcomes
Total SLT reflects Credit value
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4.4
EXPECTATIONS ON STUDENTS
4.5
DIFFERENT LEVELS OF OBE
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4.6 EXPECTED LEARNING LEARNING DOMAIN AND GENERIC GENERIC STUDENT STUDENT ATTRIBUTES Learning Domain (LD)
Generic Student Attributes (GSA)
LD 1 Knowledge
----
LD 2 Technical Skills
----
LD 3 Professionalism and Ethics
GSA 4 Moral and Professional Ethics
LD 4 Social Skills and Responsibilities
----
LD 5 Communicatio Communication n Skills
GSA 1 Communications Skills
LD 6 Critical Thinking
GSA 2 Critical Thinking and Problem Solving Skills
LD 7 Life Long Learning
GSA 6 Information Management Skills and Continuous Learning
LD 8 Entrepreneurial Skills
GSA 7 Entrepreneurship Skills
LD 9 Teamwork / Leadership Skills
GSA 3 Teamwork Skills GSA 5 Leadership Skills
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5.0
MANAGEMENT ORGANISATION CHART
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6.0
MECHANICAL ENGINEERING DEPARTMENT
6.1
DEPARTMENT ORGANISATION CHART HEAD OF DEPARTMENT Norkamal Bin Jaafar [DH 48]
ASSISTANT HEAD OF DEPARTMENT Aliudin Bin Aziz [DH 44] SECRETARY Angela ak Merum
HEAD OF PROGRAMME (DKM) Aliudin Bin Aziz [DH 44]
HEAD OF PROGRAMME (DTP) Johnny Yakin Sinit [DH 44]
HEAD OF PROGRAMME PROGRAMME (DEM) Muhamad Noor Bin Abu Hassan [DH 44]
ASSISTANT HEAD OF PROGRAMME (DKM) Sylvester Gindan
ASSISTANT HEAD OF PROGRAMME (DTP) Abd Razak Bin Mohd Daim
ASSISTANT HEAD OF PROGRAMME (DEM) Hanizam Bin Ibrahim
LECTURERS
LECTURERS
LECTURERS
1. Ahmad Zuhardi Hussain 2. Azlan Ali 3. Chicha Bagu 4. Ida Rosmanizan Abdullah 5. Khairul Afizal Sultan Ali 6. Mohd Aswadi Muhamad 7. Mohd Hafez Abdul Karim 8. Mohd Saifuddin Ahmad 9. Mohd Shah Masrom 10. Neilson Peter Sorimpuk 11. Petrus Banati @ Fazzerius 12. Sahrizan Mohamad Sahari 13. Sh. Yaacub Sh. Attar 14. Shuharzi Md Salleh 15. Zulkifli Abd Aziz
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16.
Angela ak Merum Angela Wetron Pai Chen Kok Min Hatimi Mudin Jason William Vitales (UPLI) Kasmawati Senawing Lian Liun Mohamad Ali Hamzah Mohd Hissham Idris Noorafezah Samad (HEP) (HEP) Noorazian Mohd Arsad Richard Tiam @ Aloysius Rozie Ahmat Rudy Nordin Saffuan Awg Bahrin Sufandi Mohd Johan
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.
Jahari Yaakob Kevin Ligunjang Khairol Hisam Hamran Limi Chong Mohd Hairol Mizzam Haris Mohd Nazrulazlan Abd Rasid Mohd Safei Manan Mohd Samsul Atan Mohd Shukri Abdul Hamid Mohd Zairunizam Umar Muhammad Amin Harun Noor Hanan Senin Norida Mohammad Noor Roslee Ghani Siti Khalijah Jamal
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6.2
MECHANICAL ENGINEERING DEPARTMENT LECTURERS
No.
Name
Designation
1
Norkamal Bin Jaafar
Head Of Department
2
Aliudin Bin Aziz
3
Johnny Yakin Sinit @ Yahya B. Yakin
4
Muhamad Noor Bin Abu Hassan
5
Abdul Razak Bin Mohd Daim
Lecturer
6
Ahmad Zuhardi Bin Hussain
Lecturer
7
Angela Ak Merum
Lecturer
8
Angela Wetron Pai
Lecturer
9
Azlan Bin Ali
Lecturer
10
Chen Kok Min
Lecturer
11
Chicha Bagu
Lecturer
12
Hanizam Bin Ibrahim
Lecturer
13
Hatimi Bte Mudin
Lecturer
14
Ida Rosmanizan Bte Abdullah
Lecturer
15
Jahari Bin Yaakob
Lecturer
16
Kasmawati Bte Senawing
Lecturer
17
Kevin Ligunjang
Lecturer
18
Khairol Hisam Bin Hamran
Lecturer
19
Khairul Afizal Bin Sultan Ali
Lecturer
20
Lian Liun
Lecturer
21
Limi Chong
Lecturer
22
Mohamad Ali Bin Hamzah
Lecturer
23
Mohd Aswadi Bin Muhamad
Lecturer
24
Mohd Hafez Bin Abdul Karim
Lecturer
25
Mohd Hairol Mizzam Bin Haris
Lecturer
26
Mohd Saifuddin Bin Ahmad
Lecturer
27
Mohd Samsul Bin Atan
Lecturer
28
Mohd Shah Bin Masrom
Lecturer
Head Of Program (DKM) Head Of Program (DTP) Head Of Program (DEM)
Contact No. 088-499980 (401) 088-499980 (404) 088-499980 (402) 088-499980 (403) 088-499980 (414) 088-499980 (409) 088-499980 (415) 088-499980 (410) 088-499980 (412) 088-499980 (420) 088-499980 (410) 088-499980 (405) 088-499980 (415) 088-499980 (424) 088-499980 (410) 088-499980 (408) 088-499980 (413) 088-499980 (420) 088-499980 (412) 088-499980 (414) 088-499980 (424) 088-499980 (420) 088-499980 (456) 088-499980 (420) 088-499980 (426) 088-499980 (410) 088-499980 (426) 088-499980 (410)
E-mail
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected]
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29
Mohd Shukri Bin Abdul Hamid
Lecturer
30
Mohd. Hissham Bin Idris
Lecturer
31
Mohd. Nazrul Azlan Bin Abd Rasid
Lecturer
32
Mohd. Safei Bin Manan
Lecturer
33
Mohd. Zairunizam Bin Umar
Lecturer
34
Muhammad Amin Bin Harun
Lecturer
35
Neilson Peter Sorimpuk
Lecturer
36
Noor Hanan Bin Senin
Lecturer
37
Noorazian Binti Mohd Arsad
Lecturer
38
Norida Binti Mohammad Noor
Lecturer
39
Petrus Banati @ Fazzerius
Lecturer
40
Richard Tiam @ Aloysius
Lecturer
41
Roslee Bin Ghani
Lecturer
42
Rozie Bin Ahmat
Lecturer
43
Rudy B. Norbin
Lecturer
44
Saffuan Bin Awg Bahrin
Lecturer
45
Sahrizan Bin Mohamad Sahari
Lecturer
46
Sh. Yaacub Bin Sh. Attar
Lecturer
47
Shuharzi Bin Md Salleh
Lecturer
48
Siti Khalijah Bt Jamal
Lecturer
49
Sufandi Bin Mohd. Johan
Lecturer
50
Sylvester Gindan
Lecturer
51
Tony Ontok
Lecturer
52
Zulkifli Bin Abd Aziz
Lecturer
53
Nuramalina Bte Abd. Nasir
Lab Assistant
088-499980 (426) 088-499980 (420) 088-499980 (420) 088-499980 (420) 088-499980 (413) 088-499980 (410) 088-499980 (410) 088-499980 (424) 088-499980 (424) 088-499980 (422) 088-499980 (409) 088-499980 (409) 088-499980 (408) 088-499980 (410) 088-499980 (422) 088-499980 (420) 088-499980 (412) 088-499980 (454) 088-499980 (426) 088-499980 (408) 088-499980 (413) 088-499980 (405) 088-499980 (408) 088-499980 (410) 088-499980 (405)
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected]
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6.3
PROGRAM DIPLOMA IN MECHANICAL ENGINEERING
6.3.1 PROGRAMME OVERVIEW SYNOPSIS Diploma in Mechanical Engineering at Polytechnic’s Ministry of Higher Education Malaysia is designed to cover the current wide discipline of mechanical engineering with added specialization subjects in the field of mechanical engineering. Core courses offered include Engineering Mechanics, Electrical Technology, Engineering Drawing, Mechanical Workshop Practice, Workshop Technology, Computer Aided Design, Thermodynamics, Engineering Laboratory, Fluid Mechanics, Strength of Materials, Pneumatic & Hydraulics, Project, Maintenance Management, Material Technology, Mechanic of Machines, Engineering Design and Mechanical Components & Maintenance. The elective courses are Industrial Automation, CADCAM, Quality Control, Industrial Management, Instrumentation & Control. Common core courses included in the programme are Engineering Mathematics, Computer Application, Engineering Science, Occupational Health and Safety and Entrepreneurship. Compulsory courses offered include English for Professional Communication, Islamic or Moral Studies (TITAS), CoCurriculum and Soft Skill would equip students with interpersonal ability, attitude and professionalism towards their career.
6.3.2 JOB PROSPECT This programme provides the knowledge and skills in mechanical engineering field that can be applied to a broad range of careers in mechanical engineering. The knowledge and skills that the students acquire from the programme will enable them to participate in the job market as:
Technical Assistant Assistant Service Manager Service Advisor Supervisor Assistant Engineer Technical Instructor or Lecturer Technical Sales Executive
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6.3.3 PROGRAMME AIM Graduates of diploma in mechanical engineering programme at Polytechnics will have knowledge, skills and attitude that will allow them to make tangible contributions and meet new technical challenges. They will possess entrepreneurial skills, practice good work ethics, be able to promote good morality and behavior, and continuously enhance their knowledge and skills. The graduates will communicate and interact responsibly and be able to contribute effectively as a team member. They will also be adaptable to new changes at the work place.
6.3.4 PROGRAM LEARNING OUTCOMES 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. Apply knowledge of maintenance for mechanical equipment. 3. Demonstrate awareness and consideration for societal, health, safety, legal and cultural issues and the consequent responsibilities. 4. Communicate effectively with the engineering community and the society at large. 5. Work independently or as a team member successfully. 6. Demonstrate an understanding of professional ethics, responsibilities and norms of mechanical engineering practices. 7. Demonstrate the understanding of the impact of mechanical engineering practices, taking into account the need for sustainable development. 8. Recognize the need for entrepreneurship, professional development and engage in independent and lifelong learning.
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6.3.5 SYNOPSIS AND COURSE LEARNING OUTCOMES (CLO)
R E T S E M E S
E S R U O C
SYNOPSIS
ENGINEERING DRAWING course 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.
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g n i w a r 1 D 0 g 1 i J n r J e e n i g n E
y g o l o n h 2 c 0 e 1 T J l J a c i r t c e l E
CREDIT(S) : 1 PREREQUISITE(S) : NONE
ELECTRICAL TECHNOLOGY exposes students to basic electrical circuit concepts, electric circuit installations, 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 operating electrical machines and transformers.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
COURSE LEARNING OUTCOME (CLO)
1. Define the purpose and types of engineering drawing, the instruments and how to use them. Apply the appropriate paper size, scale, alphabet, number and various types of lines with their standard features. 2. Draw the boundary line and title box , construct and divide certain angle by using technical drawing instruments and Draw simple geometrical forms using various methods 3. Construct the tangent tangent line by using a protractor, draw the tangent curve to two circles and the curve at the angular two lines. 4. Demonstrate the angle and determine the various types of views in an orthographic projection, differentiate the types of orthographic projections, draw the dimension of drawing on an orthographic projection according to the standard method. 5. Explains the relations between orthographic and auxiliary projection that determine the various type of views in auxiliary projection, Add in dimension for the drawing on an auxiliairy projection according to the standard and understand the relations between dimension. Also determine the standard dimensioning and tolerance for mechanical drawings
1. Explain clearly basic electrical quantities, types of electrical circuits, electrical power, electrical energy and solve related problems. 2. Apply correctly basic principles of inductors, capacitors, AC circuits that contains R, L a nd C to solve problems. 3. Apply the principles of three three phase systems, balanced load, star and delta type of connection to solve electrical circuit correctly. 4. Explain clearly the relationship between current flow and magnetism and AC machines in terms of operating principles, and solve related problems. 5. Identify the operations operations of transformers based based on the principles of electromagnetism.
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1 e c i t c a r p p o 3 h s 0 k 1 r J o J W l a c i n a h c e M
1 y g o l o n 4 h c 0 e 1 T J J p o h s k r o W
1 y r o t a r o b 8 a 0 L 1 J g J i n r e e n i g n E 2 e c i t c a r p p o h 3 s 0 k 2 r J o J W l a c i n a h c e M
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 machine, hand tools, marking out tools, measuring and testing tools. Students are also taught to emphasize on safety procedures and cleanliness in the workshop.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
WORKSHOP TECHNOLOGY1 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.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
ENGINEERING LABORATORY exposes the students to practical laboratory experiments in Electrical Technology and Engineering Mechanics. These experiments consists of collection of data through observation and experimentation, formulation and testing of theory.
1. Practice correctly safety procedures in the workshop. 2. Carry out fitting fitting works with various hand tools, marking out, measuring tools, testing tools and drilling machine. 3. perform grinding works and various types of lathe work according to prescribed procedures 4. carry out correctly basic gas and arc arc welding works involving various processes of welding and types of joining metals according to S.O.P
1. Describe clearly the importance of safety procedures and applications in general engineering workshop ( machining, welding, fitting and foundry work ). 2. Explain the use of of measuring measuring instruments instruments and hand tools correctly. 3. Demonstrate an understanding of the use of drilling, lathe, grinding and milling machine. 4. Explain gas and arc welding, welding, oxy-acetylene cutting and brazing clearly. 5. Identify correctly welding defects, types of joints, distortion, welding terminologies and symbols in arc welding.
1. Conduct appropriately electrical and engineering mechanics experiments in groups according to the standard of procedures. 2. Analyse critically the data data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate appropriate report based based on the experiment results.
CREDIT(S) : 1 PREREQUISITE(S) : NONE
MECHANICAL WORKSHOP PRACTICE 2 exposes the students to gas and arc welding, machining and foundry works. Safety procedure practice is heavily emphasized in the workshop.
CREDIT(S) : 2 PREREQUISITE(S) : JJ103 MECHANICAL WORKSHOP PRACTICE 1
1. Practice safety procedures correctly in the workshop according to the workshop safety procedure. 2. perform rightfully rightfully arc and gas welding works following the welding procedures 3. Produce simple mould pattern and practice on on sand castings. 4. Operate correctly lathe machine, measuring and testing the work pieces according to manual specification.
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s c i n a h c e 5 M 0 2 g J i J n r e e n i g n E
1 n g i s e D 6 d e 0 d 2 i J A J r e t u p m o C
1 s c i m 7 a 0 n y 2 d J J o m r e h T
WORKSHOP TECHNOLOGY 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, computerised numerical control, shielded arc welding and rapid prototyping.
CREDIT(S) : 2 PREREQUISITE(S) : JJ104 WORKSHOP TECHNOLOGY 1
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. State the method method to measure and and inspect metric screw thread correctly. 2. Describe clearly the types, uses and characteristic of gears, and the method of milling spur gear using simple direct indexing. 3. Justify correctly the importance of surface texture on engineering components and identify appropriately each roughness degree of a surface finish according to B.S. 1134. 4. Produce in groups a simple computerised numerical control program ap propriately. 5. Explain concisely the principles of gas-shielded arc welding, TIG and MIG welding. 6. Determine prototyping prototyping for production moulds moulds correctly.
1. Apply the principles of mathematics and physics to solve quantitative problems correctly. 2. Recognize correctly the relevancy of principles of force equilibrium and its importance in the analysis of structural system. 3. Explain clearly the concept of dynamics, kinetics and kinematics for particle and rigid body.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
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.
CREDIT(S) : 1 PREREQUISITE(S) : JJ101 ENGINEERING DRAWING
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.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
1. Draw correctly using CAD software. 2. Use the input and drawing command correctly to perform drawing. 3. Use editing display control and drawing assistance command correctly. 4. Distinguish clearly the importance of layer, block dimensioning and hatching. 5. Prepare exactly steps for plotting the drawing following the procedures.
1. Describe correctly the basic concepts of system, boundary, surrounding, open and close systems and First Law of Thermodynamics. 2. Calculate correctly the compression and expansion of steam and gas using the second law of thermodynamics. 3. Determine correctly the properties of pure substances and its value using steam tables. 4. Explain clearly the gas power cycle using using standard of cycles.
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1 y g o l o n 2 h 0 c 3 e F T J l a i r e t a M
3 e c i t c a r P p o h 3 s 0 k 3 r J o J W l a c i n a h c e M
2 n g i s e D 6 d e 0 d 3 i J A J r e t u p m o C
2 y r o t a r o b 8 a 0 L 3 J g J i n r e e n i g n E
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 clearly pure metal, alloy and and other nonmetal materials that are commonly used in the engineering field. 2. Explain clearly the microstructure of metal and alloy. 3. Work in groups and present the processes of plastic products. 4. Explain concisely the principles of material testing and types of material defects.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
MECHANICAL WORKSHOP PRACTICE 3 exposes the students to use of TIG and MIG welding machines in welding work on horizontal, vertical and flat position. In addition students are exposed to use of lathe and milling machine. Safety procedures practice is emphasized in the workshop.
CREDIT(S) : 2 PREREQUISITE(S) : JJ203 MECHANICAL WORKSHOP PRACTICE 2
COMPUTER AIDED DESIGN 2 exposes the students to 3D design theory and practice of surfaces, types, formulation and implementation by CAD system. Students will master assembly creation techniques, assembly analysis and using CAD systems to create assembly model and assembly drawing.
CREDIT(S) : 1 PREREQUISITE(S) : JJ206 COMPUTER AIDED DESIGN 1
ENGINEERING LABORATORY 2 exposes the students to the demonstration at the real equipment of Fluid Mechanics, Strength of Materials and Thermodynamics 1.These experiment consists of the collection of data through observation and experimentation, formulation and testing of theory.
CREDIT(S) : 1 PREREQUISITE(S) : NONE
1. Practice safety procedures correctly in the workshop according to the workshop safety regulation. 2. Perform correctly TIG and MIG welding welding work in various types of metal, metal thickness and joining. 3. Use lathe and milling machine for various types of cutting processes following the manual procedures or instruction.
1. Explain clearly the configuration configuration 3D CAD user and interface. 2. Demonstrate an understanding of sketching techniques and methods of using extruding 3. Create, place and constrain suitable custom and standard components in an assembly, simulate mechanisms, animate assembly design and check for interfaces. 4. Produce document designs using base, projected, section, detailed, and isometric drawing views and document assemblies using standard and exploded drawing views. 5. Develop automated automated dimension techniques and assembly centric bill of materials.
1. Conduct appropriately appropriately experiments in groups according to the standard of procedures. 2. Analyse critically the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate appropriate report based based on the experiment results.
22
3
3
3
5
s c i n a 9 h 0 c 3 e J M J d i u l F
s l a i r e t a 0 M 1 f 3 o J J t h g n e r t S
s e n i h c a 1 M 1 f 3 o J s J i c n a h c e M
4 e c i t c a r p p o 3 h s 0 k 5 r J o J w l a c i n a h c e M
FLUID MECHANICS provides students with a strong fundamental understanding on fluid mechanics principles relating to basic foundation knowledge on fluid properties and behavior in a number of static and dynamic situations.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
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.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
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.
CREDIT(S) : 2 PREREQUISITE(S) : JJ205 ENGINEERING MECHANICS
MECHANICAL WORKSHOP PRACTICES 4 allows students in getting use extensively and skillfully operate machine tools, extend their experiences on indexing, precision grinding, CNC machine and able to work in a clean and safe workshop environment.
CREDIT(S) : 2 PREREQUISITE(S) : JJ303 MECHANICAL WORKSHOP PRACTICE 3
1. determine clearly the characteristics characteristics and properties of fluids 2. solve problems correctly related to fluid static and fluid dynamics 3. demonstrate an understanding in in pressure measurement in pipe connection system 4. explain clearly the concepts of fluid fluid flow in the nozzle
1. Describe clearly forces on materials according to Hooke’s Law , shear stress and shear strain. 2. Determine correctly thermal stress in series and parallel composite bars. 3. Solve problems correctly correctly in shear force and and bending moment to the beam subjected to concentrated load and uniformly distributed load. 4. Determine correctly bending stress for cantilever beam and simply supported beam. 5. Use double integration method to solve successfully the deflection in the beam subjected to load and torsion for series and parallel composite shaft.
1. Explain correctly the concept of hoist system, acceleration, velocity, torque using equations of motion, simple harmonic motion, elastic motion and pendulum. 2. Determine correctly the velocity and acceleration of the mechanism using space, velocity and acceleration diagram. 3. Determine correctly solutions solutions to the motion of a body acting by a traction force problems. 4. Analyze and balance the rotating masses using ‘mr’ and ‘mrl’ polygon. 5. Apply correctly the concept of belt drives system.
1. Practice safety procedures correctly in the workshop according to the workshop safety regulation. 2. Perform correctly indexing and machining processes for the surface machining and cylindrical grinding machine. 3. Write programs for for EDM and CNC machining process using ISO codes. 4. Draw 3D solid model prior to program code generation using a CAD/CAM software and post processing of generated CNC codes.
23
5
2 c i m 7 a 0 n y 5 d J o J m r e h T
THERMODYNAMICS 2 expose students to the basic concepts of thermodynamics related to heat, work, changes of energy and the characteristics of a thermodynamics processes. This module also emphasis on steam power plant, gas turbine, refrigeration cycle and combined power cycle. This course also provides knowledge and understanding of theory, concepts and application of principles to solve problems related to thermodynamics processes.
1. Describe correctly the principle of Rankine cycle using T-s diagram to find the isentropic efficiency, cycle efficiency, heat input, work, specific steam consumption and work ratio. 2. Determine clearly the internal internal combustion engine and sketch the Otto cycle and Diesel c ycle diagram. 3. Sketch correctly temperature vs entrophy diagram (T-s) and pressure vs entrophy diagram (p-h). 4. Explain clearly the concepts of heat transfer and elaborate the general equation for heat transfer.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
5
5
5
3 y r o t a r o b 8 a 0 L 5 J g J i n r e e n i g n E
s c i l u a r d y 2 H 1 5 & J i c J t a m u e n P
n g i s e 3 D 1 g n 5 i r J e J e n i g n E
ENGINEERING LABORATORY 3 exposes the students to the demonstration at the real equipment of Mechanics of Machine, Thermodynamics and Materials Technology. These experiment consists of the collection of data through observation and experimentation, formulation and testing of theory.
1. Conduct appropriately appropriately experiments in groups according to the standard of procedures. 2. Analyze critically the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate appropriate report based based on the experiment results.
CREDIT(S) : 1 PREREQUISITE(S) : NONE
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.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
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.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
1. Explain clearly using the diagram of structural block and pneumatic system signal flow, air generation system and air distribution system. 2. Explain briefly the function and workings of cylinder, valve and sensor using construction symbols. 3. Design accurately a cylinder numerous sequence control and additional function. 4. Explain construction of valve, actuator, arrangement, basic circuit, pressure and flow control at hydraulic system actuators. 5. Conduct in group and write the laboratory report for the pneumatic and hydraulics experiments
1. Apply the basic concept of of design process to design product or component. 2. Apply the mathematical analysis for simple component design in safe load limitation. 3. Apply the basic concept and principle in gear designing. 4. Describe the procedures of bearing selection according to manufacturers’ data in specifying suitable bearings for a given application.
24
5
1 4 t c 1 e 5 j J o J r P
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 listening skills in presentation 3. prepare a good proposal 4. deliver a good and interesting presentation presentation
CREDIT(S) : 1 PREREQUISITE(S) : NONE
6
2 4 t c 1 e 6 j J o J r P
PROJECT 2 introduces the students to the concept in conducting a design or case study. The students select a project and prepare a literature review, 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.
CREDIT(S) : 2 PREREQUISITE(S) : JJ514 PROJECT 1
6
6
& t n e n o e p c m n 5 o 1 a n 6 C t J l e n J a i c a i n M a h c e M
t n e m e g a n 6 a 1 M 6 e J c J n a n e t n i a M
MECHANICAL COMPONENTS AND MAINTENANCE covers basic mechanical components needs in Industry. The topic includes maintenance principles, procedures, lubrication, power transmission, bearing, clutches and brakes and pumps, valves and compressor. This course also gives knowledge and skills regarding maintenance of mechanical components and assemblies.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
MAINTENANCE MANAGEMENT covers topic such as maintenance organization, maintenance strategies system, system approach to maintenance, maintenance planning and scheduling and computerized maintenance management system (CMMS). This course also includes knowledge regarding maintenance of facilities and equipments activities in a good working condition and develops good management knowledge.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
1. Apply the concept in conducting a design design or case study 2. Determine the design design or case study to be carried out through discussion with group members and supervisory lecturer 3. Apply appropriate methodology to the 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
1. Apply correctly safe working practices and explain the principles of preventative and first line maintenance 2. Identify exactly the function of lubricants and select correct lubricants for specific applications 3. Identify the the power transmission transmission systems in in gear, belt drive and chain drive. 4. Explain clearly bearing, friction, friction, temperature and lubrication, mounting and dismounting of bearing and bearing damage 5. Perform perfectly assemble, dismantle dismantle and replace for various mechanical components system with specialize in clutches, brakes, pump, valves and compressors.
1. Identify clearly the maintenance organization and strategies which balance maintenance cost against the impact of plant failure. 2. Explain clearly the procedures for changeovers and set-ups, carrying out frequent maintenance tasks, better practice, which all lead to reduced costs and better service. 3. Develop planning and scheduling of the maintenance jobs to increased enthusiasm and involvement of the workforce. 4. Demonstrate an understanding the maintenance maintenance system in CMMS to making as a power tool for enhancing reliability effort.
ELECTIVE
25
5/6
M 4 A 0 C 5 F D J A C
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).
CREDIT(S) : 3 PREREQUISITE(S) : NONE
5/6
5/6
5/6
n o i t a m o 8 t 0 u 6 A l M a J i r t s u d n I
l o r t n o C & 7 n 1 i o 5 t J t J a n e m u r t s n I
l o r t n 8 o 0 C 6 y F i J t l a u Q
THE INDUSTRIAL AUTOMATION explains advantages and disadvantages of using robots along with a description of the classification systems used with robots. It’s also giving students an understanding of modern industrial automation technology.
CREDIT(S) : 3 PREREQUISITE(S) : JM507 PROGRAMMABLE LOGIC CONTROLLER
INSTRUMENTATION & CONTROL exposes the students to the basic principles in co ntrol system and its usage in industrial sector are the main focus in this course. Instrumentation and control also provides knowledge to the students in components measurement in control system that are normally used in industries.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
QUALITY CONTROL provides knowledge on basic principle and concept of quality including statistical method in controlling products quality or services. This course also emphasize on the application of Control Chart and Quality Control tools. In addition, this course also explains the importance of International Standard of Quality Assurance Standard, ISO 9000 for an organization.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
1. Integrate correctly of CAD, NC and CAM with the CNC Machine. 2. Explain clearly the concept and theory of M and G code CNC programming. 3. Explain useful the CNC Milling and Turning process. 4. Generate successful machining code by utilizing CADCAM software during milling, turning and hole making process. 5. Describe clearly and present information the the overall picture of modern manufacturing system.
1. Describe the definition and classification classification of automation in industry. 2. Identify the the basic components components and applications of automation system. 3. Explain the fundamental mechanical mechanical concept as related to the field of robotic. 4. Identify the the specific applications of sensors in robotic. 5. Developed an understanding of the common major components of industrial robots. 6. Describe type of automation and recognize some some of the programming languages and modes of operation used in industry.
1. Explain clearly the instrumentation instrumentation concept and measurement system. 2. Describe briefly the basic items in the instrumentation system 3. Identify correctly correctly types of measurements for the the industrial application 4. Describe types types of control action 5. Apply precisely the computer computer usage in control process.
1. Describe brief basic knowledge in quality including concept of quality and terms that are associated to quality. 2. Explain short the meaning and the purposes of inspection on products and choosing the appropriate method. 3. Apply successful SPC and SQC in controlling product and service quality using statistical method. 4. Analyze correctly using various types of plotted charts as such as control chart, matrix, Pareto chart, scatter diagram, check sheet, graph and brainstorming for quality improvement purposes. 5. Explain clearly the importance of International International Standard of quality assurance, ISO 9000 for an organization.
26
5/6
5/6
t n a l y P g o 8 g l n o 1 i 6 r n J e h J e c n e i g T n E
t n e m e g 9 a 1 n a 6 M J l J a i r t s u d n I
ENGINEERING PLANT TECHNOLOGY provides an introduction to plant technology, such as steam powered plant, steam turbine, gas turbine plant, diesel power plant, compressed air plant and water pump.
1. Differentiate the the types of boiler boiler used in the the industry. 2. Explain the basic concept of power plant including steam power plant, gas turbine power plant, diesel power plant and compressed air plant power plant. 3. Explain the main parts of water pump and its functions.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
INDUSTRIAL MANAGEMENT provides students to a strong fundamental understanding of industrial management prospect, production system planning such as inventory, scheduling, production system operation, facilities, plan location, layout and line balancing. This course also provides knowledge in quality control and human resource management.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
1. Define the concept of industrial engineering engineering and management. 2. Explain plant location, layout, layout, process and balancing concept in the industry. 3. Analyze the concept of inventory inventory in the industry. 4. Apply scheduling method in production system identify the quality issues and human resource needs.
27
6.3.6 PROGRAM STRUCTURE (DKM) COURSE CODE
COURSE
L
P
T
C
COURSE CODE
COURSE
SEMESTER 1
L
P
T
C
SEMESTER 4
Islamic Education 1
2
1
0
2
AA 102***
Moral Education 1
2
1
0
2
AE 101
Communicative English 1
0
4
0
2
AE 501
Communicative English 3
1
2
0
2
AR 101
Co-Curriculum 1
0
2
0
1
BA 501
Engineering Mathematics 4
2
0
1
2
BA 101
Engineering Mathematics 1
2
1
0
2
JJ 503
Mechanical Workshop Practice 4
0
4
0
2
BB 101
Engineering Science
2
1
0
2
JJ 507
Thermodynamics 2
2
0
1
2
BC 101
Computer Application
0
2
0
1
JJ 508
Engineering Laboratory 3
0
2
0
1
JJ 101
Engineering Drawing
0
2
0
1
JJ 512
Pneumatic & Hydraulics
2
2
0
3
JJ 102
Engineering Technology
2
0
0
2
JJ 513
Engineering Design
3
0
0
3
JJ 103
Mechanical Workshop Practice 1
0
4
0
2
JJ 514
Project 1,2
1
0
0
1
JJ 104
Workshop Technology 1
2
0
0
2
*** Elective
2
2
0
2
JJ 108
Engineering Laboratory 1
0
2
0
1
TOTAL
13
12
2
18
TOTAL
10
19
0
18
SEMESTER 2
AT 401
10
AA 101**
Industrial Training
SEMESTER 5
SEMESTER 6 BA 601
Engineering Mathematics 5
2
0
1
2
AA 201**
Islamic Education 2
2
1
0
2
PB 201
Entrepreneurship
2
0
1
2
AA 202***
Moral Education 2
2
1
0
2
JJ 614
Project 2
0
4
0
2
AR 201
Co-Curriculum 2
0
2
0
1
JJ 615
Mechanical Components & Maintenance
2
2
0
3
AS 101
Soft Skills
1
2
0
2
JJ 616
Maintenance Management
2
0
0
2
AW 101
Occupational Safety and Health 1
1
0
1
1
*** Elective
2
2
0
2
BA 201
Engineering Mathematics 2
2
0
1
2
TOTAL
10
8
2
13
JJ 203
Mechanical Workshop Practice 2
0
4
0
2
GRAND TOTAL
59
61
10
95
JJ 204
Workshop Technology 2
2
0
0
2
*** Students can select any of the elective courses that are are
JJ 205
Engineering Mechanics
3
0
0
3
offered by the institution
JJ 206
Computer Aided Design 1
0
2
0
1
*** Elective
JJ 207
Thermodynamics 1
2
0
1
2
JF 504
CADCAM
1
2
0
2
TOTAL
13
11
3
18
JM 608
Industrial Automation
2
2
0
3
JJ 517
Instrumentation & Control
1
2
0
2
SEMESTER 3 AA 301
Islamic Civilization
2
1
0
2
JJ 608
Quality Control
2
0
0
2
AE 301
Communicative English 2
1
2
0
2
JJ 618
Engineering Plant Technology
2
0
0
2
BA 301
Engineering Mathematics 3
2
0
1
2
JJ 619
Industrial Management
2
0
0
2
JJ 303
Mechanical Workshop Practice 3
0
4
0
2
JJ 306
Computer Aided Design 2
0
2
0
1
JJ 308
Engineering Laboratory 2
0
2
0
1
JJ 309
Fluid mechanics
2
0
0
2
JJ 310
Strength of Materials
2
0
1
2
JJ 302
Material Technology 1
2
0
0
2
JJ 311
Mechanics of Machines
2
0
1
2
TOTAL
13
11
3
18
NOTE : Students are required to complete one elective at each semester 5 and 6 (minimum of 4 credits of elective course)
** For Muslim Students Students L : Lecture
*** For Non Muslim Muslim Students Students
P : Practical / Lab
T : Tutorial
C : Credit
28
6.3.7 MATRIX OF PROGRAM ASSESSMENT (DKM)
Quiz
Theory Test
Code & Course
Practical Test
Practical Task
Project
Other Assessment
Final Exam
Qty
%
Qty
%
Qty
%
Qty
%
Qty
%
Qty
%
%
JJ101 Engineering Drawing
2
10
-
-
2
30
6
60
-
-
-
-
-
JJ102 Electrical Technology
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ103 Mechanical Workshop Practice 1
-
-
-
-
-
-
3
60
1
20
3
20
100
JJ104 Workshop Technology 1
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ108 Engineering Laboratory 1
-
-
-
-
-
-
8
60
-
-
4
40
-
JJ203 Mechanical Workshop Practice 2
-
-
-
-
-
-
4
60
1
20
4
20
-
JJ204 Workshop Technology 2
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ205 Engineering Mechanics
4
20
2
40
-
-
-
-
-
-
2
40
100
JJ206 Computer Aided Design 1
-
-
-
-
2
40
6
60
-
-
-
-
-
JJ207 Thermodynamics 1
4
40
2
40
-
-
-
-
-
-
3
20
100
JF302 Material Technology 1
2
20
2
40
-
-
-
-
-
-
3
40
100
JJ303 Mechanical Workshop Practice 3
2
60
-
-
-
-
-
-
1
20
2
20
-
JJ306 Computer Aided Design 2
-
-
-
-
2
40
4
60
-
-
-
-
-
JJ308 Engineering Laboratory 2
-
-
-
-
-
-
8
60
-
-
4
40
-
29
JJ309 Fluid Mechanics
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ310 Strength of Materials
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ311 Mechanics of Machines
4
20
2
30
-
-
-
-
-
-
3
50
100
JJ503 Mechanical workshop practice 4
3
60
-
-
-
-
-
-
1
20
3
20
-
JJ507 Thermodynamic 2
4
30
2
40
-
-
-
-
-
-
3
30
100
JJ508 Engineering Laboratory 3
-
-
-
-
-
-
8
60
-
-
4
40
-
JJ512 Pneumatic & Hydraulics
3
20
2
40
4
10
4
10
-
-
3
20
100
JJ513 Engineering Design
3
20
2
30
1
20
-
-
3
30
-
JJ514 Project 1
-
-
-
-
-
-
-
-
-
-
4
100
-
JJ614 Project 2
-
-
-
-
-
-
-
-
-
-
2
100
-
JJ615 Mechanical Component & Maintenance
2
10
2
30
-
-
8
50
-
-
2
10
100
JJ616 Maintenance Management
4
20
2
30
-
-
-
-
-
-
1
50
100
JF504 CADCAM
-
-
-
-
2
30
5
50
-
-
1
20
-
JM608 Industrial Automation
4
10
2
20
-
-
1
60
-
-
3
10
-
JJ517 Instrumentation & Control
4
20
2
30
-
-
4
10
-
-
3
30
100
JF608 Quality Control
2
20
2
40
-
-
-
-
-
-
3
40
100
JJ618 Engineering Plant Technology
4
30
2
40
-
-
-
-
-
-
2
30
100
JJ619 Industrial Management
4
20
2
40
-
-
-
-
-
-
3
40
-
30
31
6.4
PROGRAMME DIPLOMA IN MECHANICAL ENGINEERING (MANUFACTURING)
6.4.1 PROGRAMME OVERVIEW SYNOPSIS Diploma in Mechanical Engineering (Manufacturing) is designed to cover the current wide discipline of mechanical engineering with added specialisation in the area of manufacturing. The broad-based mechanical engineering foundation courses which includes Computer Application, Engineering Drawing, Computer Aided Design, Occupational Safety and Health and Mechanical Workshop provides versatility to the graduates, while emphasizing the area of specialisation in manufacturing. Some of the specialised courses include Workshop Technology, Manufacturing System, Materials Technology, Computer Aided Manufacturing Design, Industrial Robotics, Manufacturing Control, Quality Control, Jigs, Fixtures & Tooling Design, Engineering Design, CADCAM, Manufacturing Economy, Instrumentation & Control and Industrial Maintenance.
6.4.2 JOB PROSPECT
This programme provides the knowledge and skills in mechanical and manufacturing 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: • Supervisor • Technical Specialist • Technical Assistant • Quality Technician • CNC Programmer • Production/Process Planner • Purchasing Technician • Product Designer • Design Drafter • CADD Technician • Process Technician
32
6.4.3 PROGRAMME AIM Graduates of diploma in mechanical engineering (manufacturing) programme at Polytechnics will have knowledge, skills and attitude that will allow them to make tangible contributions and meet new technical challenges. They will possess entrepreneurial skills, practice good work ethics, be able to promote good morality and behaviour, and continuously enhance their knowledge and skills. The graduates will communicate and interact responsibly and be able to contribute effectively as a team member. They will also be adaptable to new changes at the work place.
6.4.4 PROGRAM LEARNING OUTCOMES At the end 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 manufacturing. 3. Demonstrate awareness and consideration for societal, health, safety, legal and cultural issues and the consequent responsibilities. 4. Communicate effectively with the engineering community and the society at large. 5. Work independently or as a team member successfully. 6. Demonstrate an understanding of professional ethics, responsibilities and norms of mechanical engineering practices. 7. Demonstrate the understanding of the impact of mechanical engineering practices, taking into account the need for sustainable development. 8. Recognise the need for entrepreneurship, professional development and engage in independent and lifelong learning.
33
6.4.5 SYNOPSIS AND COURSE LEARNING LEARNING OUTCOMES (DTP)
R E T S E M E S
1
E S R U O C
g n i w a r 1 D 0 g 1 i J n r J e e n i g n E
1
y g o l o n h 2 c 0 e 1 T J l J a c i r t c e l E
1
1 e c i t c a r P p o h 3 s 0 k 1 r J o J W l a c i n a h c e M
SYNOPSIS
ENGINEERING DRAWING course 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.
CREDIT(S) PREREQUISITE(S)
: :
1 NONE
COURSE LEARNING OUTCOME (CLO)
1. Explain clearly the purpose and types of engineering drawing 2. Draw simple geometrical forms using var ious methods. 3. Demonstrate an understanding of the geometric dimensioning and tolerance (GDT) 4. Describe clearly the angle and the various types of views in an orthographic projection. 5. Draw precisely auxiliary projection, isometric views and developments.
ELECTRICAL TECHNOLOGY exposes students 1. Explain clearly basic electrical electrical quantities, quantities, to basic electrical circuit concepts, electric circuit types of electrical circuits, electrical power, installations, the application of electromagnetism electrical energy and solve related problems. in electrical machines and transformers. The 2. Apply correctly basic principles of inductors, course focuses on the different types of electrical capacitors, AC circuits that contains R, L and circuits, the relationship between current and C to solve problems. voltage including the resistance. It also provides 3. Apply the principles of three phase s ystems, the skills on the methods of constructing basic balanced load, star and delta type of circuits and operating electrical machines and connection to solve electrical circuit correctly. transformers. 4. Explain clearly the relationship between current flow and magnetism and AC machines in terms of operating principles, and solve CREDIT HOUR(S) : 2 related problems. PREREQUISITE(S) : NONE 5. Identify the operations of transformers based on the principles of electromagnetism.
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 machine, hand tools, marking out tools, measuring and testing tools. Students are also taught to emphasize on safety procedures and cleanliness in the workshop.
CREDIT (S) : 2 PREREQUISITE (S) : NONE
1. Practice correctly safety procedures in the workshop. 2. Carry out fitting works with various hand tools, marking out, measuring tools, testing tools and drilling machine. 3. Perform grinding works and various types of lathe work according to prescribed procedures. 4. Carry out correctly basic gas and arc welding works involving various processes of welding and types of joining metals according to S.O.P.
34
1
2
2
1 p y o g 4 h o 0 s l o 1 k r n J o J h c W e T
g 1 n r y i r o 8 e t 0 e a 1 n r J i o J g b n a E L
g n i r u m 1 t 0 c t e 2 f a F u s y J n S a M
WORKSHOP TECHNOLOGY1 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.
CREDIT PREREQUISITE(S)
: :
2 NONE
ENGINEERING LABORATORY exposes the students to practical laboratory experiments in Electrical Technology and Engineering Mechanics. These experiments consist of collection of data through observation and experimentation, formulation and testing of theory.
CREDIT (S) PREREQUISITE(S)
: :
: :
1. Conduct appropriately electrical and engineering mechanics experiments in groups according to the standard of procedures. 2. Analyse critically the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate report based on the experiment results.
1 NONE
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.
CREDIT(S) PREREQUISITE(S)
1. Describe clearly the importance of safety procedures and applications in general engineering workshop ( machining, welding, fitting and foundry work ). 2. Explain the use of measuring instruments and hand tools correctly. 3. Demonstrate an understanding of the use of drilling, lathe, grinding and milling machine. 4. Explain gas and arc welding, oxy-acetylene cutting and brazing clearly. 5. Identify correctly welding defects, types of joints, distortion, welding terminologies and symbols in arc welding.
2 NONE
1. Explain clearly the basic concept of manufacturing system in production planning. 2. Apply different resource scheduling methods correctly in operation management 3. Explain clearly work study in manufacturing, explain satisfactorily the importance of Quality assurance (QA), zero defect, Quality Control Circle (QCC), basic quality tools and methods of generating ideas in improving quality. 4. Describe correctly materials handling system and machine maintenance in manufacturing system. 5. Present successfully the manufacturing system in groups.
35
2
2
2 p y o g 4 h o 0 s l o 2 k r n J o J h c W e T
g s n i i r c 5 e 0 e n a 2 n h J i c J g e n E M
WORKSHOP TECHNOLOGY 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, computerised numerical control, shielded arc welding and rapid prototyping.
CREDIT HOUR(S) PREREQUISITE(S)
2
2
1 s c i m 7 a 0 n y 2 d J J o m r e h T
2 JJ104 WORKSHOP TECHNOLOGY 1
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.
CREDIT(S) PREREQUISITE(S)
d e d i 1 6 A r n 0 e g 2 t i s J u e J p D m o C
: :
: :
1. State the method to measure and inspect metric screw thread correctly. 2. Describe clearly the types, uses and characteristic of gears, and the method of milling spur gear using simple direct indexing. 3. Justify correctly the importance of surface texture on engineering components and identify appropriately each roughness degree of a surface finish according to B.S. 1134. 4. Produce in groups a simple computerised numerical control program appropriately. 5. Explain concisely the principles of gasshielded arc welding, TIG and MIG welding. 6. Determine prototyping for production moulds correctly.
1. Apply the principles of mathematics and physics to solve quantitative problems correctly. 2.Recognize correctly the relevancy of principles of force equilibrium and its importance in the analysis of structural system 3.Explain clearly the concept of dynamics, kinetics and kinematics for particle and rigid body.
3 NONE
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.
CREDIT(S) :1 PREREQUISITE(S) : JJ101 ENGINEERING DRAWING
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.
CREDIT HOUR(S) : 2 PRE-REQUISITE(S) : NONE
1. Draw correctly using CAD software. 2. Use the input and drawing command correctly to perform drawing. 3. Use editing display control and drawing assistance command correctly. 4. Distinguish clearly the importance of layer, block dimensioning and hatching. 5. Prepare exactly steps for plotting the drawing following the procedures.
1. Describe correctly the basic concepts of system, boundary, surrounding, open and close systems and First Law of Thermodynamics. 2. Calculate correctly the compression and expansion of steam and gas using the second Law of thermodynamics. 3. Determine correctly the properties of pure substances and its value using steam tables. 4. Explain clearly the gas power cycle using standard of cycles.
36
3
1 y l g a o 2 i r l 0 e 3 t o n F a h J M c e T
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.
CREDIT(S) PREREQUISITE(S)
3
1 e c i t c a r 3 P 0 g 3 i n F r J t u c a f u n a M
: :
MANUFACTURING WORKSHOP PRACTICE 1 exposes the students to the knowledge and skills of machining, plastic and welding process. The topics are covered fundamentals of applications and process in Grinding, Milling, Plastic and TIG/MIG welding. It comprises handling, technique and operate machines, and welding technique. Through this course the students will learn few things regarding the quality assurance and control, inspection and testing, supervision, factory training etc. It comprises of planning skill, supervising the design, inspection and testing the welding task in order to fulfill the quality assurance and safety rules in handling and during process based on standard.
CREDIT(S) PREREQUISITE(S)
3
3
d e d i 2 6 A r n 0 e g 3 t i s J u e J p D m o C
g 2 n r y i r o 8 e t 0 e a 3 n r J i o J g b n a E L
2 NONE
: :
: :
1 JJ206 COMPUTER AIDED DESIGN 1
ENGINEERING LABORATORY 2 exposes the students to the demonstration at the real equipment of Fluid Mechanics, Strength of Materials and Thermodynamics 1.These experiment consists of the collection of data through observation and experimentation, formulation and testing of theory.
CREDIT (S) PREREQUISITE(S)
: :
1. Define clearly features, benefits and application of milling, grinding, and TIG/MIG welding and joining methods. 2. Relate suitable behaviour of materials and their response to welding and joining methods 3. Perform suitable process using plastic machine, milling and grinding machine. 4. Handle correct process of surface and cylindrical grinding process based on the drawing. 5. Comply correctly quality assurance/quality control requirement in machining and fabrication.
2 NONE
COMPUTER AIDED DESIGN 2 exposes the students to 3D design theory and practice of surfaces, types, formulation and implementation by CAD system. Students will master assembly creation techniques, assembly analysis and using CAD systems to create assembly model and assembly drawing.
CREDIT(S) PREREQUISITE(S)
1. Explain clearly pure metal, alloy and other non-metal materials that are commonly used in the engineering field. 2. Explain clearly the microstructure of metal and alloy. 3. Work in groups and present the processes of plastic products. 4. Explain concisely the principles of material testing and types of material defects
1 NONE
1. Explain clearly the configuration 3D CAD user and interface. 2. Demonstrate an understanding of sketching techniques and methods of using extruding 3. Create, place and constrain suitable custom and standard components in an assembly, simulate mechanisms, animate assembly design and check for interfaces. 4. Produce document designs using base, projected, section, detailed, and isometric drawing views and document assemblies using standard and exploded drawing views. 5. Develop automated dimension techniques and assembly centric bill of materials.
1. Conduct appropriately experiments in groups according to the standard of procedures. 2. Analyse critically the the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate report based on the experiment results.
37
3
s c i 9 d n i 0 a u 3 l J F h c J e M
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.
CREDIT(S) PREREQUISITE(S)
3
5
s l a i r e t a 0 M 1 f 3 O J J t h g n e r t S
2 e c i t c a r P p o 3 h s 0 k 5 r F J o W l a c i n a h c e M
: :
2 NONE
STRENGTH OF MATERIALS provides knowledge on concepts and calculation of forces on materials, thermal stress, shear force and be nding moment, bending stress, shear stress and torsion in shafts .
CREDIT (S) PREREQUISITE(S)
: :
2 NONE
MANUFACTURING WORKSHOP PRACTICES 2 provides knowledge and skill to the students in the usage of Conventional machines, CNC automatic machine, robotic, specific welding as well as inspection process and testing on the work piece. This module emphasis on handling and usage of whittling machine, shaping machine, accurate grinding machine, robotic, CNC lathe machine as well as CNC EDM. The programming aspect is also focused in the usage of CNC machine and robotic. This module covers specific welding work such as foundering welding; plastic welding as well as inspection works and testing on work piece using surface texture comparator equipment and universal microscope equipment.
CREDIT(S) PREREQUISITE(S)
: :
2 NONE
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.
1. Describe clearly forces on materials according to Hooke’s Law , shear stress and shear strain. 2. Determine correctly thermal stress in series and parallel composite bars. 3. Solve problems correctly in shear force and bending moment to the beam subjected to concentrated load and uniformly distributed load. 4. Determine correctly bending stress for cantilever beam and simply supported beam. 5. Use double integration method to solve successfully the deflection in the beam subjected to load and torsion for series and parallel composite shaft.
1. Operate correctly the normal machines such as lathing, milling, shaping machine and accurate grinding machine. 2. Operate proper the CNC lathe, CNC milling and EDM machine using standard procedure. 3. Operate proper welding works using foundering arc welding machine and plastic welding machine using standard procedure. 4. Conduct appropriate analyses measurement concept on work piece using surface texture comparator equipment, use of gauge and universal microscope.
38
5
M 4 A 0 C 5 F D J A C
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).
CREDIT(S) PREREQUISITE(S)
5
l s a c i 5 t i t 0 r s o 5 u F b o J d n R I
2 NONE
INDUSTRIAL ROBOTICS explains advantages and disadvantages of using robots along with a description of the classification systems used with robots. Robotics components such as actuators, tooling and control systems are examined. Robot programming operations and robot application are also discussed. The course ends with an explanation of the ANSI robotics safety standard and maintenance process.
CREDIT(S) PREREQUISITE(S)
5
: :
: :
2 NONE
MANUFACTURING ENGINEERING LABORATORY 1 provides students an understanding on critical measurements of mass g 1 n g i r n r y and force, heat treatment and material testing for r o a broad range of industries and aspects of u i 6 t t 0 c e 5 f a e r everyday life. Student will learn how to make a n a F u i o program using PLC, widely used in manufacturing J n g b n a a E and mechanical processes. M L
CREDIT(S) PREREQUISITE(S)
: :
1. Integrate correctly of CAD, NC and CAM with the CNC Machine 2. Explain clearly the concept and theory of M and G code CNC programming 3. Explain useful the CNC Milling and Turning process Generate successful machining code by utilizing CADCAM software during milling, turning and hole making process 5. Describe clearly and present information the overall picture of modern manufacturing System.
1 NONE
1. State clearly the Robot Industries Association's definition of an industrial robot and explain five of the advantages and disadvantages. 2. Describe specifically the classification of robot and recognize all of the types of robot component. 3. Describe correctly the robot end effectors categories: standard grippers, vacuum devices, magnetic devices, flexible pneumatic devices, special-purpose tools, and specialpurpose devices. 4. Explain briefly the command used sensors in an industrial robotics and robot programming operation. 5. Explain clearly the type robot processing capabilities that are available and understand standard safety requirement for Industrial Robots and Robot Systems.
1. Operate successful the material testing equipment for destructive and non-destructive testing. 2. Handle correctly various of measuring equipment in metrology. 3. Conduct appropriately the heat treatment process of materials selected. 4. Construct successful a simple program and application by using PLC.
39
5
5
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. Explain clearly using the diagram of structural block and pneumatic system signal flow, air generation system and air distribution system. 2. Explain briefly the function and workings of cylinder, valve and sensor using construction symbols. 3. Design accurately a cylinder numerous sequence control and additional function. 4. Explain construction of valve, actuator, arrangement, basic circuit, pressure and flow control at hydraulic system actuators. 5. Conduct in group and write the laboratory report for the pneumatic and hydraulics experiments
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. 4. Deliver a good and interesting presentation.
c s i t c i 2 a l u 1 m & a CREDIT HOUR(S) : 3 5 u r PREREQUISITE(S) : NONE J e d n y P H
1 4 t c 1 e 5 j J o J r P
CREDIT(S) PREREQUISITE(S)
6
: :
1 NONE
MANUFACTURING ENGINEERING LAB 2 aims to enable the learner to develop knowledge and skills in Industrial Robot Application, Statistical Process Control (SPC) and Inventory Control. In Robot Application, it will focus on programming, hands on training and robot application (welding, spraying and material handling). Statistical g 2 Process Control (SPC) uses statistical tools to n g i r n r y observe the performance of the production r o process in order to predict significant deviations u i 6 t e 0 c e t 6 f a n a r that may later result in rejected product. Control F i o J u g chart, Pareto Chart, Cause-and-Effect diagram b n n a a E L and c, p, u, np chart are used in SPC. Inventory M control involves in understanding quantity discounts and inventory control. Rapid prototyping is used in designing complex design shapes. It involves in modifying and completing design of a prototype.
CREDIT(S) PREREQUISITE(S)
: :
1 NONE
1. Construct suitable program for robot to complete a specific task using on and offline programming. 2. Apply correctly hands on robot application as such as material handling, welding and spraying and rapid prototyping in designing. 3. Interpret precisely data and graph control charts in observing the performance of a production process. 4. Use appropriate quality improvement tool as such as Pareto Diagram, Cause-and-Effect diagram and control chart for attribute, c, p, u np chart. 5. Identify precisely the quantity of of inventory to be order at the minimum cost on the total ost curve using EOQ in inventory control. 6. Apply correctly rapid prototyping design process using rapid prototyping machine.
40
6
l o r t n o C 7 g n 0 i 6 r F u J t c a f u n a M
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.
CREDIT(S) PREREQUISITE(S)
6
6
g n i r u l 8 t o r 0 c t 6 f a n F o J u n C a M
& n g s i s e r e 9 u 0 t D x 6 i F F g n J , i l s o g o i J T
: :
2 NONE
QUALITY CONTROL provides knowledge on basic principle and concept of quality including statistical method in controlling products quality or services. This course also emphasize on the application of Control Chart and Quality Control tools. In addition, this course also explains the importance of International Standard of Quality Assurance Standard, ISO 9000 for an organization.
CREDIT(S) PREREQUISITE(S)
: :
2 NONE
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 nonmetal 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.
CREDIT(S) PREREQUISITE(S)
: :
3 NONE
1. Explain brief and present the information of management basics function, organization structure, various types of planning horizon, manufacturing planning and control (MPC) and forecasting methods. 2. Explain clearly the importance of supply chain management, logistics management and Just in time (JIT) approaches. 3. Explain brief the usage and method to prepare Master Production Schedule (MPS) and Material Requirement Planning (MRP) and the procedures to make short term ability plan. 4. Describe suitable costs that associated with inventory management, method used in inventory co trol, inventory ordering model, method to determine the Economic Ordering Quantity and calculate the annual total inventory management cost.
1. Describe brief basic knowledge in quality including concept of quality and terms that are associated to quality. 2. Explain short the meaning and the purp oses of inspection on products and choosing the appropriate method. 3. Apply successful SPC and SQC in controlling product and service quality using statistical method. 4. Analyze correctly using various types of plotted charts as such as control chart, matrix, Pareto chart, scatter diagram, check sheet, graph and brainstorming for quality improvement purposes. 5. Explain clearly the importance of International Standard of quality assurance, ISO 9000 for an organization.
1. Give in own terms terminologies, datum concept, geometric tolerances, and tooling concept with suitable examples. 2. Explain fundamentals of jig and fixtures design, components and applications in metal process 3. Describe fundamentals of mould design, components and applications in nonmetal process 4. Explain fundamentals of tools and die design, components and applications in metal stamping. 5. Formulate the drawing, design and tooling components.
41
6
2 4 t c 1 e 6 j J o J r P
PROJECT 2 introduces the students to the concept in conducting a design or case study. The students select a project and prepare a literature review, 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.
CREDIT(S) PREREQUISITE(S)
: :
2 JJ514 PROJECT 1
1. Apply the concept in conducting a design or case study 2. Determine the design or case s tudy 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.
ELECTIVE
5
5
2 y g o l o n 2 h 0 c 5 e F T J l a i r e t a M
MATERIAL TECHNOLOGY 2 exposed students on several types of metal, alloy and other non-metal materials that are commonly used in the engineering field. Components covered such as stainless steel, non-ferrus alloy, polymers, environmental effect and characteristic of electrical materials.
CREDIT(S) PREREQUISITE(S)
2 NONE
INDUSTRIAL MAINTENANCE aims to enable the learners to develop the knowledge in the maintenance of engineering components and e l c assemblies. Upon successful completion of this a n course the learner will be able to describe the i 0 t a 1 r s n 5 u e machine components/assemblies and repair or F t n J d i n a obtain replacements for damaged parts then re I M assemble and fit the components/assemblies.
CREDIT(S) PREREQUISITE(S)
5
: :
: :
2 NONE
MANUFACTURING ECONOMIC provide knowledge to students on concept, basic element principle cost component and decision making which are involved in manufacturing. Decision g making in manufacturing process. Course focuses n i r n on fix cost, variable cost, direct and indirect cost, 3 e g 1 e i 5 n s labour cost, materials and costing and actual cost. J i e J g D Also included break-even point analysis to explain n E a concept of decision making in manufacturing process.
CREDIT(S) PREREQUISITE(S)
: :
2 NONE
1. Explain clearly the classes of stainless steel and its application in engineering field. 2. Describe correctly the mechanic characteristics and its application of nonferrous alloy in engineering field. 3.Describe correctly the mechanic characteristics and its application of polymers in engineering field. 4. Explain clearly and present the environmental effect on materials. 5. Explain clearly the electrical features of materials.
1. Describe clearly the engineering maintenance procedures 2. Explains clearly the different method of power transmission 3. Describes correctly the lubricants used in industry 4. Describes correctly the various types of conveying system and components 5. Explain clearly and work in group the implementation of preventive maintenance
1. Apply the basic concept of design process to design product or component. 2. Apply the mathematical analysis for simple component design in safe load limitation. 3. Apply the basic concept and principle in gear designing. 4. Describe the procedures of bearing selection according to manufacturers’ data in specifying suitable bearings for a given application.
42
5
ENGINEERING DESIGN provides knowledge on basic engineering design. It emphasizes g mathematical analysis for simple component n i r n 7 e g design in engineering such as key, pin joint, bolt, 1 e i 5 n s nut and welding. It also provides knowledge on J i e J g D gear design and selection of bearing. n E
CREDIT (S) PREREQUISITE(S)
6
: :
3 NONE
INSTRUMENTATION & CONTROL exposes the students to the basic principles in control system g and its usage in industrial sector are the main focus n i r y in this course. Instrumentation and control also u m 1 t 1 c o provides knowledge to the students in components 6 f a n F u o measurement in control system that are normally J n c a E used in industries. M
CREDIT(S) PREREQUISITE(S)
: :
2 NONE
1. Explain clearly the instrumentation concept and measurement system. 2. Describe briefly the basic items in the instrumentation system 3. Identify correctly types of measurements for the industrial application 4. Describe types of control action 5. Apply precisely the computer usage in control process.
1. Explain correct the fix cost, variable cost, actual cost, direct and indirect cost. 2. Describe clearly the five factors which influences the manufacturing cost. 3. Describe short the factors which involves actual cost in manufacturing process. 4. Analyze correctly of decision making in breakeven point concept.
43
6.4.6 PROGRAM STRUCTURE (DTP)
COURSE CODE
COURSE
L
P
T
C
COURSE CODE
COURSE
SEMESTER 1
L
P
T
C
SEMESTER 4
Islamic Education 1
2
1
0
2
AA 102***
Moral Education 1
2
1
0
2
AE 101
Communicative English 1
0
4
0
2
AE 501
Communicative English 3
1
2
0
2
AR 101
Co-Curriculum 1
0
2
0
1
BA 501
Engineering Mathematics 4
2
0
1
2
BA 101
Engineering Mathematics 1
2
1
0
2
JJ 508
Engineering Laboratory 2
0
2
0
1
BB 101
Engineering Science
2
1
0
2
JJ 512
Pneumatic & Hydraulics
2
2
0
3
BC 101
Computer Application
0
2
0
1
JM 505
Microprocessor and Controller
2
1
1
2
JJ 101
Engineering Drawing
0
2
0
1
JM 506
Programmable Logic Controller
1
2
0
2
JJ 102
Electrical Technology
2
0
0
2
JM 507
Control System
2
1
0
2
JJ103
Mechanical Workshop Practice 1
0
4
0
2
JJ 514
Project 1
1
0
0
1
JJ104
Workshop Technology 1
2
0
0
2
*** Elective
2
2
0
2
JJ 108
Engineering Laboratory 1
0
2
0
1
TOTAL
13
12
2
17
TOTAL
1 0
19
0
18
SEMESTER 2
AT 401
10
AA 101**
Industrial Training
SEMESTER 5
SEMESTER 6 BA 601
Engineering Mathematics 5
2
0
1
2
AA 201**
Islamic Education 2
2
1
0
2
PB 201
Enthepreneurship
2
0
1
2
AA 202***
Moral Education 2
2
1
0
2
JJ 614
Project 2
0
4
0
2
AR 201
Co-Curriculum 2
0
2
0
1
JM 608
Industrial Automation
2
2
0
3
AS 101
Soft Skills
1
2
0
2
JM 609
Power Transfer Mechanism
2
0
1
2
BA 201
Engineering Mathematics 2
2
0
1
2
JM 610
Basic Power Electronic
2
2
0
3
JJ204
Workshop Technology 2
2
0
0
2
*** Elective
2
2
0
2
JJ 205
Engineering Mechanics
3
0
0
3
TOTAL
JJ 206
Computer Aided Design 1
0
2
0
1
GRAND TOTAL
1 2 6 1
1 0 5 8
JJ 207
Thermodynamic 1
2
0
1
2
*** Students can select any of the elective courses that are
JF201
Manufacturing System
2
0
0
2
offered by the institution
14
7
2
17
TOTAL SEMESTER 3
3 1 1
1 6 9 5
*** Elective JJ 513
Engineering Design
3
0
0
3
AA 301
Islamic Islamic Civilization
2
0
1
2
JF502
Material Technology 2
2
0
0
2
AE 301
Communicative English 1
1
2
0
2
JF510
Industrial Maintenance
2
0
0
2
BA 301
Engineering Mathematics 3
2
0
1
2
JJ517
Instrument & Control
1
2
0
2
AW 101
Occupational Safety and Health 1
1
0
1
1
JJ 611
Manufacturing Economy
2
0
0
2
JJ 306
Computer Aided Design 2
0
2
0
1
JJ 308
Engineering Laboratory 2
0
2
0
1
JJ 309
Fluid Mechanics
2
0
0
2
JJ 310
Strength Of Materials
2
0
1
2
** For Muslim Students Students
JF 302
Material Technology 1
2
0
0
2
L : Lecture
JF 303
Manufacturing Workshop Practice 1
0
4
0
2
12
10
4
17
TOTAL
NOTE : Students are required to complete one elective at each semester 5 and 6 (minimum of 4 credits of elective course)
*** For Non Muslim Muslim Students Students
P : Practical / Lab
T : Tutorial
C : Credit
44
6.4.7 MATRIX OF PROGRAM ASSESSMENT (DTP)
Quiz
Code & Course
Theory Test Qty %
Practical Test
Practical Task
Other Assessment
Qty
%
Qty
%
Qty
%
Final Exam %
Qty
%
JJ101 Engineering Drawing
2
10
2
30
-
-
6
60
-
-
-
JJ102 Electrical Technology
4
20
2
30
-
-
-
-
3
50
100
JJ103 Mechanical Workshop Practice 1
-
-
-
-
-
-
3
60
4
40
-
JJ104 Workshop Technology 1
4
20
2
30
-
-
-
-
3
50
100
JJ108 Engineering Laboratory 1
-
-
-
-
-
-
8
60
4
40
-
JF201 Manufacturing System
2
20
2
40
-
-
-
-
3
40
100
JJ204 Workshop Technology 2
4
20
2
30
-
-
-
-
3
50
100
JJ205 Engineering Mechanics
4
20
2
40
-
-
-
-
2
40
100
JJ206 Computer Aided Design 1
-
-
-
-
2
40
6
60
-
-
-
JJ207 Thermodynamics
4
40
2
40
-
-
-
-
3
20
100
JF302 Material Technology 1
2
20
2
40
-
-
-
-
3
40
JF303 Manufacturing Workshop Practice 1
-
-
-
-
-
-
7
70
1
30
-
JJ306 Computer Aided Design 2
-
-
-
-
2
40
4
60
-
-
-
JJ308 Engineering Laboratory 2
-
-
-
-
-
-
8
60
4
40
-
100
45
JJ309 Fluid Mechanics JJ310 Strength Of Materials
4
20
2
30
-
-
-
-
3
50
100
4
20
2
30
-
-
-
-
3
50
100
JF503 Manufacturing Workshop Practice 2
-
-
-
-
-
-
7
70
1
30
-
JF504 CADCAM
-
-
-
-
2
30
5
50
1
20
-
JF505 Industrial Robotics
2
20
2
40
-
-
-
-
3
40
100
JF506 Manufacturing Engineering Laboratory 2
-
-
-
-
-
-
6
70
1
30
-
JJ512 Pneumatic & Hydraulics
3
20
2
40
-
-
4
10
4
10
100
JJ514 Project 1
-
-
-
-
-
-
-
-
4
100
-
JJ606 Manufacturing Engineering Lab 2
-
-
-
-
-
-
5
70
1
30
-
JF607 Manufacturing Control
2
20
2
40
-
-
-
-
3
40
100
JF608 Quality Control
2
20
2
40
-
-
-
-
3
40
100
JF609 Jig, Fixtures And Tooling Design
2
20
2
40
-
-
-
-
3
40
100
JJ614 Project 2
-
-
-
-
-
-
-
-
2
100
-
JF502 Material Technology 2
2
20
2
40
-
-
-
-
3
40
100
JF510 Industrial Maintenance
2
20
2
40
-
-
-
-
3
30
100
JJ513 Engineering Design
3
20
2
30
-
-
-
-
4
50
-
JJ517 Instrumentation & Control
4
20
2
30
-
-
4
10
4
40
100
JF611 Manufacturing Economic
2
20
2
40
-
-
-
-
3
40
100
46
47
6.5
PROGRAM DIPLOMA IN MECHATRONIC ENGINEERING
6.5.1 PROGRAMME OVERVIEW SYNOPSIS Diploma in Mechatronic Engineering at Polytechnic’s Ministry of Higher Education Malaysia is designed to cover the current wide discipline of mechatronic engineering with added specialization subjects in the field of mechatronic engineering. Core courses offered include Technical Drawing, Mechatronic Workshop Practice, Electrical Technology, Computer Aided Drawing, Thermodynamics, Engineering Laboratory, Fluid Mechanic, Strength of Materials, Pneumatic & Hydraulic, Project, Material Technology, Power Transfer Mechanism, Motor Control, Microprocessor Fundamental, Digital System, Programmable Logic Controller and Industrial Automation. Graduates are also required to complete one elective course at each semester 5 and 6 with a minimum total off our credits. Elective courses include Mechatronic Engineering, CADCAM, Quality Control and Industrial Management. Common core courses included in the programme are Engineering Mathematics, Computer Application, Occupational Health and Safety and Entrepreneurship. Compulsory courses offered include English for Professional Communication, Islamic or Moral Studies (TITAS), Co-Curriculum And Soft Skill would equip students with interpersonal ability, attitude and professionalism towards their career.
6.5.2 JOB PROSPECT This programme provides the knowledge and skills in mechatronic engineering field that can be applied to a broad range of careers in mechatronic engineering. The knowledge and skills that the students acquire from the programme will enable them to participate in the job market as:
Technical Assistant Production Technician Test & Reliability Technician Service Engineer Sales Engineer Application Engineer Controller System Supervisor Automation and Robotic Supervisor Mechanical and Electrical System Designer
48
Based on their technical knowledge and skills, leadership, communication and interpersonal skills graduates can embark on entrepreneurial activities to venture in related business. Graduates also have the opportunities to further their studies in Advanced Diploma in Mechatronic Engineering in Polytechnic or continue to pursue bachelor degree education in Mechatronic Engineering in local universities or abroad.
6.5.3 PROGRAMME AIM Graduates of diploma in mechanical engineering programme at Polytechnics will have knowledge, skills and attitude that will allow them to make tangible contributions and meet new technical challenges. They will possess entrepreneurial skills, practice good work ethics, be able to promote good morality and behavior, and continuously enhance their knowledge and skills. The graduates will communicate and interact responsibly and be able to contribute effectively as a team member. They will also be adaptable to new changes at the workplace.
6.5.4 PROGRAM LEARNING OUTCOMES 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 m aintenance for mechanical equipment with specialization in mechatronic engineering. 3. Demonstrate awareness and consideration for societal, health, safety, legal and cultural issues and the consequent responsibilities. 4. Communicate effectively with the engineering community and the society at large. 5. Work independently or as a team member successfully. 6. Demonstrate an understanding of professional ethics, responsibilities and norms of mechanical engineering practices. 7. Demonstrate the understanding of the impact of mechanical engineering practices, taking into account the need for sustainable development. 8. Recognise the need for entrepreneurship, professional development and engage in independent and lifelong learning.
49
6.5.5 SYNOPSIS AND COURSE LEARNING LEARNING OUTCOMES (DEM)
R E T S E M E S
1
1
1
1
E S R U O C
g n i w a r 1 D 0 g 1 i J n r J e e n i g n E
p o h s k r 1 o 1 W e 0 i c 1 i c t c M n a J o r r t P a h c e M
y g o l o n h 2 c 0 e 1 T J l J a c i r t c e l E
2 , 1 y r o t a r o 8 b 0 a 1 L J J g n i r e e n i g n E
SYNOPSIS
ENGINEERING DRAWING course 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.
CREDIT(S) : 1 PRE-REQUISITE(S) : NONE
MECHATRONIC WORKSHOP PRACTICE 1 exposes the student to basics work in an engineering workshop with emphasis on safety practices. Students are exposed to fitting, welding, metal fabrication and machining.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
ELECTRICAL TECHNOLOGY exposes students to basic electrical circuit concepts, electric circuit installations, 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 operating electrical machines and transformers.
COURSE LEARNING OUTCOME (CLO)
1. Explain clearly the purpose and types of engineering drawing 2. Draw simple geometrical forms using various methods. 3. Demonstrate an understanding of the geometric dimensioning and tolerance (GDT) 4. Describe clearly the angle and the various types of views in an orthographic projection. 5. Draw precisely auxiliary projection, isometric views and developments.
1. Acquire knowledge to safety measures in an engineering workshop. 2. Use hand tools correctly and skillfully and capable of making products that are accurate as required. 3. Produce flame according to class and carry out welding using gas welding equipment. 4. Start the arc with different methods and carr y out metal welding using arc welding equipment. 5. Use lathe machine to produce projects that fulfill dimensions as stipulated.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
1. Explain clearly basic electrical quantities, types of electrical circuits, electrical power, electrical energy and solve related problems. 2. Apply correctly basic principles of inductors, capacitors, AC circuits that contains R, L and C to solve problems. 3. Apply the principles of three phase s ystems, balanced load, star and delta type of connection to solve electrical circuit correctly. 4. Explain clearly the relationship between current flow and magnetism and AC machines in terms of operating principles, and solve related problems. 5. Identify the operations of transformers based on the principles of electromagnetism.
ENGINEERING LABORATORY exposes the students to practical laboratory experiments in Electrical Technology and Engineering Mechanics. These experiments consists of collection of data through observation and experimentation, formulation and testing of theory.
1. Conduct appropriately electrical and engineering mechanics experiments in groups according to the standard of procedures. 2. Analyse critically the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate report based on the experiment results.
CREDIT(S) : 1 PRE-REQUISITE(S) : NONE
50
2
c i 2 n p o e 1 o h r 0 t s i c 2 a k t c r h M c o a J e r P W M
MECHATRONICS WORKSHOP PRACTICE 2 enhances knowledge on CNC and EDM and also enables students to carry out related job specification. This course also emphasizes on how to operate CNC and EDM machines properly.
1. Identify CNC and EDM system linkages. 2. Familiarize with aspects on CNC and EDM programming. 3. Operate CNC and EDM machines. 4. Carry out maintenance on CNC and EDM machines. 5. Analyse results from the programs.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
2
2
s c i n a h c e 5 M 0 2 g J i J n r e e n i g n E
1 c i m 7 a 0 n y 2 d J o J m r e h T
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 mathematics and physics to solve quantitative problems correctly. 2. Recognize correctly the relevancy of principles of force equilibrium and its importance in the analysis of structural system. 3. Explain clearly the concept of dynamics, k inetics and kinematics for particle and rigid body.
CREDIT(S) : 3 PRE-REQUISITE(S) : NONE
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. Describe correctly the basic concepts of system, boundary, surrounding, open and close systems and First Law of Thermodynamics. 2. Calculate correctly the compression and expansion of steam and gas using the second law of thermodynamics. 3. Determine correctly the properties of pure substances and its value using steam tables. 4. Explain clearly the gas power c ycle using standard of cycles.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
2
1 n g i s e D 6 d e 0 d 2 i J A r e t u p m o C
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 d esigns.
CREDIT(S) : 1 PREREQUISITE(S) : JJ101 ENGINEERING DRAWING
1. Draw correctly using CAD s oftware. 2. Use the input and drawing command correctly to perform drawing. 3. Use editing display control and drawing assistance command correctly. 4. Distinguish clearly the importance of layer, block dimensioning and hatching. 5. Prepare exactly steps for plotting the drawing following the procedures.
51
2
m e t s y 2 S 0 c 2 i M n J o r t c e l E
ELECTRONIC SYSTEM covers knowledge on basics of electronic concepts and digital systems. The course emphasizes on the electrical characteristics and properties of semiconductor materials, operation of linear DC power supplies, amplifier circuits and sinusoidal wave oscillator circuits. This course also discusses number systems, code systems, logic gates, Boolean operations and combinational logic circuits.
1. Describe the characteristics and properties of semiconductor materials. 2. Explain the basic principles of semiconductor components. 3. Explain the construction and operation of linear DC power supplies, signal amplifier circuits and sinusoidal wave oscillator circuits. 4. Apply the knowledge of basics of number systems and binary codes. 5. Apply the knowledge of logic gates in logic circuit designs.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
3
3
3
1 y g o l o n 2 h 0 c 3 e F T J l a i r e t a M
s l a i r e t a 0 M 1 f 3 o J J t h g n e r t S
c i n o r t c 3 l e 0 E 3 l M a i J t r s u d n I
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 clearly pure metal, alloy and other non-metal materials that are commonly used in the engineering field. 2. Explain clearly the microstructure of metal and alloy. 3. Work in groups and present the processes of plastic products. 4. Explain concisely the principles of material testing and types of material defects.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
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.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
INDUSTRIAL ELECTRONIC provides exposure to mechanical, electrical and electronic devices. This course discusses structures of circuits, switches, relays, solenoids, thyristors, sensors, motor controllers and converters.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
1. Describe clearly forces on materials accor ding to Hooke’s Law, shear stress and shear strain. 2. Determine correctly thermal stress in series and parallel composite bars. 3. Solve problems correctly in shear force and bending moment to the beam subjected to concentrated load and uniformly distributed load. 4. Determine correctly bending stress for cantilever beam and simply supported beam. 5. Use double integration method to solve success fully the deflection in the beam subjected to load and torsion for series and parallel composite shaft.
1. Explain the introduction to mechatronics devices, basic function, types of switches and switches specification according to NEMA. 2. Explain the functions of relay, solenoid, diode, transistor, thyristor and converter. 3. Explain the various class, types and functions of sensors and their operation. 4. Explain the structure of telemetric and multiplex data acquisition systems.
52
3
3
s c i n a 9 h 0 c 3 e J M J d i u l F
m e t 4 s 0 y S 3 l M a J t i g i D
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.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
DIGITAL SYSTEM provides the knowledge on the concepts and basic principles of digital circuits used in computer systems. The course focuses on sequential logic circuits, counters and registers. The course also covers the topics on the methods of signal conversion in electronic circuits.
CREDIT(S) : 3 PRE-REQUISITE(S) : NONE
5
5
2 y r o t a r o b 8 a 0 L 3 J g J i n r e e n i g n E
s c i l u a r d y 2 H 1 5 & J i c J t a m u e n P
1. Determine clearly the characteristics and properties of fluids. 2. Solve problems correctly related to fluid s tatic 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.
ENGINEERING LABORATORY 2 exposes the students to the demonstration at the real equipment of Fluid Mechanics, Strength of Materials and Thermodynamics 1.These experiment consists of the collection of data through observation and experimentation, formulation and testing of theory.
1. Construct various flip-flops using NOR and NAND gates. 2. Explain the operations of SR flip-flops, JK flip-flops, D flip-flops and T flip-flops. 3. Analyse synchronous and asynchronous counters. 4. Explain various applications of registers in electronic circuits. 5. Explain the methods of converting digital signals to analogue and analogue signals to digital.
1. Conduct appropriately experiments in groups according to the standard of procedures. 2. Analyse critically the data of the experimental data in relation to the theoretical aspects. 3. Write critically the appropriate report based on the experiment results.
CREDIT(S) : 1 PRE-REQUISITE(S) : NONE
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.
CREDIT(S) : 3 PRE-REQUISITE(S) : NONE
1. Explain clearly using the diagram of structural block and pneumatic system signal flow, air generation system and air distribution system. 2. Explain briefly the function and workings of cylinder, valve and sensor using construction symbols. 3. Design accurately a cylinder numerous sequence control and additional function. 4. Explain construction of valve, actuator, arrangement, basic circuit, pressure and flow control at hydraulic system actuators. 5. Conduct in group and write the laboratory report for the pneumatic and hydraulics experiments.
53
5
d n r a e r l o l o r 5 s s t 0 e 5 c n o c M o r o J p r c i o r M c i M
MICROPROCESSOR & MICROCONTROLLER exposes the student to the architecture of microprocessors and microcontrollers, memory as well as computer system interface. This course also emphasizes on instruction set, addressing mode and writing program using assembly language for microprocessors and microcontrollers. Students are also exposed to the use of microcontroller in control system.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
5
5
r e l l o r t n o C c i 6 g o 0 L 5 e M l J b a m m a r g o r P
m e t 7 s y 0 S 5 l M o r J t n o C
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. Explain the architecture of microprocessor, instruction set, addressing mode as well as writing simple programs using assembly language. 2. Explain the architecture of microcontroller, instruction set, addressing mode and writing program for simple microcontroller-based control system. 3. Identify types of memory, methods of addressing memory and design memory mapping. 4. Explain input/output operation and concept of serial and parallel interfacing.
1. Identify the types of automation system. 2. Apply the use of relays and contactors. 3. Apply the application timer and counter in P LC operation. 4. Build the Ladder Program for various operation of automation. 5. Maintain PLC system.
CREDIT(S) : 3 PRE-REQUISITE(S) : NONE
CONTROL SYSTEM provides knowledge regarding various concepts of feedback control system and the required mathemathical methods. The emphasis of the course is on control action, pneumatic control details, hydraulic control details, locus analysis, and design technique analysis and frequency response. This course also provides knowledge in analyzing and designing source locus and frequency response.
1. Define general terms in control system. 2. Identify function and types of a controller principle 3. Analyse the transfer function equations based on controller system. 4. Derive transfer function using signal flow graph and block diagram. 5. Identify the stability of a control system.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
5
1 4 t c 1 e 5 j J o J r P
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.
CREDIT(S) : 1 PRE-REQUISITE (S) : NONE
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. 4. Deliver a good and interesting presentation.
54
6
2 4 t c 1 e 6 j J o J r P
PROJECT 2 introduces the students to the concept in conducting a design or case study. The students select a project and prepare a literature review, 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.
CREDIT(S) PREREQUISITE(S)
6
6
6
n o i t a m o 8 t 0 u 6 A l M a J i r t s u d n I
m s i n a h c e 9 M 0 r 6 f e M s J n a r T r e w o P
c i n o r t c e 0 l 1 E r 6 e M w J o P c i s a B
: :
2 JJ514 PROJECT 1
THE INDUSTRIAL AUTOMATION explains advantages and disadvantages of using robots along with a description of the classification systems used with robots. It’s also giving students an understanding of modern industrial automation technology.
CREDIT(S) : 3 PRE-REQUISITE(S) : JM507 PROGRAMMABLE LOGIC CONTROLLER
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. 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.
1. Describe the definition and classification of automation in industry. 2. Identify the basic components and applications of automation system. 3. Explain the fundamental mechanical concept as related to the field of robotic. 4. Identify the specific applications of sensors in robotic. 5. Developed an understanding of the common major components of industrial robots. 6. Describe type of automation and recognize some of the programming languages and modes of operation used in industry.
1. Knowing types of power transfer mechanism are used at machines. 2. Use knowledge studied to choose power transfer mechanism suitable with state using or design that machine. 3. Apply theory and principle studied to calculate physical dimension and power or tork who can transfer through power transfer mechanism.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
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.
CREDIT(S) : 3 PRE-REQUISITE(S) : NONE ELECTIVE
1. Explain most common semiconductor com ponents for electrical drive and their characteristics i.e control and uncontrol semiconductor switch. 2. Analyse DC and AC converters techniques using rectifier, chopper, inverters, cycloconverter and pulse width modulated (PWM). 3. Apply the techniques for motor control.
55
6
5
3 e c i t c a r P p o 1 h s 0 k 6 r M o J W c i n o r t a h c e M
M 4 A 0 C 5 F D J A C
MECHATRONIC WORKSHOP PRACTICE 3 would introduce and handling the coordinate robotic system, learn and record robot position, change coordination systems and palletising in robotic technology. This should improve the knowledge of robotic concept and handling of the actual robot. Mechatronic Workshop Practice 3 will also concentrate on Computer Aided Manufacturing (CIM) and Automatic Storage Retrieval System (ASRS).
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
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. Understand the technology of the robotic system, Computer Aided Manufacturing (CIM) and Automatic Storage Retrieval System (ASRS). 2. Differentiate movement position of the robot with different methods. 3. Able to run the robot with different coordinate system or method, which they learned earlier. 4. Able to explained the palletising concepts, preparation method and implementation process of palletising. 5. Able to explained the concept of Computer Aided Manufacturing (CIM) and Automatic Storage Retrieval System (ASRS), and also can run the robotic automatically.
1. Integrate correctly of CAD, NC and CAM with the CNC Machine 2. Explain clearly the concept and theory of M and G code CNC programming 3. Explain useful the CNC Milling and Turning process 4. Generate successful machining code by utilizing CADCAM software during milling, turning and hole making process 5. Describe clearly and present information the overall picture of modern manufacturing system
CREDIT(S) : 3 PREREQUISITE(S) : NONE
6
l o r t n 8 o 0 C 6 y F i J t l a u Q
QUALITY CONTROL provides knowledge on basic principle and concept of quality including statistical method in controlling products quality or services. This course also emphasize on the application of Control Chart and Quality Control tools. In addition, this course also explains the importance of International Standard of Quality Assurance Standard, ISO 9000 for an organization.
CREDIT(S) : 3 PREREQUISITE(S) : NONE
1. Describe brief basic knowledge in quality including concept of quality and terms that are associated to quality. 2. Explain short the meaning and the purposes of inspection on products and choosing the appropriate method. 3. Apply successful SPC and SQC in controlling product and service quality using statistical method. 4. Analyze correctly using various types of plotted charts as such as control chart, matrix, Pareto chart, scatter diagram, check sheet, graph and brainstorming for quality improvement purposes. 5. Explain clearly the importance of International Standard of quality assurance, ISO 9000 for an organization.
56
6
3
t n e m e g 9 a 1 n 6 a F M J l a i r t s u d n I
g n i m m 1 a r 0 g 3 o C r B P l a u s i V
INDUSTRIAL MANAGEMENT provides students to a strong fundamental understanding of industrial management prospect, production system planning such as inventory, scheduling, production system operation, facilities, plan location, layout and line balancing. This course also provides knowledge in quality control and human resource management.
1. Define the concept of industrial engineering and management 2. Explain plant location, layout, process and b alancing concept in the industry 3. Analyze the concept of inventory in the industry 4. Apply scheduling method in production system identify the quality issues and human resource needs.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
VISUAL PROGRAMMING course provides knowledge relating to the concept and basic principles of programming using a visual programming language. The emphasis of this course is on understanding of the Integrated Development Environment (IDE), use of objects, language structures and program structures. This course also provides knowledge and practical skills to develop complete programming tasks through various visual programming techniques.
CREDIT(S) : 2 PRE-REQUISITE(S) : NONE
1. Describe the Integrated Development Environment (IDE) interface and programming concept in v isual programming environment. 2. Demonstrate the use of Control and Visual Features in visual programs. 3. Produce visual programs that are capable of making decisions by using constants, variables and control structures. 4. Design and present clearly the interactive and structured visual programs based on menus, subroutines and functions. 5. Integrate hardware and visual programs codes to interface correctly with the hardware.
57
6.5.6 PROGRAM STRUCTURE FOR (DEM)
COURSE CODE
COURSE
L
P
T
C
COURSE CODE
COURSE
SEMESTER 1
L
P
T
C
SEMESTER 4
AA 101**
Islamic Education 1
2
1
0
2
AT 401
Industrial Training
AA 102***
Moral Education 1
2
1
0
2
AE 101
Communicative English 1
0
4
0
2
AE 501
Communicative English 3
1
2
0
2
AR 101
Co-Curriculum 1
0
2
0
1
BA 501
Engineering Mathematics 4
2
0
1
2
BA 101
Engineering Mathematics 1
2
0
1
2
JJ 508
Engineering Laboratory 2
0
2
0
1
BB 101
Engineering Science
2
1
0
2
JJ 512
Pneumatic & Hydraulics
2
2
0
3
BC 101
Computer Application
0
2
0
1
JM 505
Microprocessor and Controller
2
1
1
2
JJ 101
Engineering Drawing
0
2
0
1
JM 506
Programmable Logic Controller
1
2
0
2
JM 101
Mechatronic Workshop Practice 1
0
4
0
2
JM 507
Con Control trol System
2
1
0
2
JJ 102
Electrical Technology
2
0
0
2
JJ 514
Project 1
1
0
0
1
JJ 108
Engineering Laboratory 1
0
2
0
1
*** Elective
2
2
0
2
TOTAL
8
19
1
16
TOTAL
13
12
2
17
10
SEMESTER 5
SEMESTER 2
SEMESTER 6
AA 201**
Islamic Education 2
2
1
0
2
BA 601
Engineering Engineering Mathematics 5
2
0
1
2
AA 202***
Moral Education 2
2
1
0
2
PB 201
Entrepreneurship
2
0
1
2
AR 201
Co-Curriculum 2
0
2
0
1
JJ 614
Project 2
0
4
0
2
AS 101
Soft Skills
1
2
0
2
JM 608
Industrial Automation
2
2
0
3
BA 201
Engineering Mathematics 2
2
0
1
2
JM 609
Power Transfer Mechanism
2
0
1
2
JM 201
Mechatronic Workshop Practice 2
0
3
0
2
JM 610
Basic Power Electronic
2
2
0
3
JJ 205
Engineering Mechanics
3
0
0
3
*** Elective
2
2
0
2
JJ 207
Thermodynamic 1
2
0
1
2
TOTAL
12
10
3
16
JJ 206
Computer Aided Design 1
0
2
0
1
GRAND TOTAL
60
60
11
94
JM 202
Electronic System
2
1
0
2
*** Students can select any of the elective courses courses that are
12
12
2
17
offered by the institution
TOTAL SEMESTER 3
*** Elective
AE 301
Communicative English 1
1
2
0
2
JF 504
CADCAM
1
2
0
2
AA 301
Islamic Civilization
2
0
1
2
BC 301
Visual Programming
1
2
0
2
BA 301
Engineering Mathematics 3
2
1
0
2
JM 601
Mechatronic Workshop Practice 3
0
3
0
2
AW 101
Occupational Safety and Health 1
1
0
1
1
JF 608
Quality Control
2
0
0
2
JF 302
Material Technology 1
2
0
0
2
JJ 619
Industrial Management
2
0
0
2
JJ 310
Strength of Materials
2
0
1
2
JM 303
Industrial Electronic
1
2
0
2
NOTE : Students are required to complete one elective at each semester 5
JJ 309
Fluid Mechanics
2
0
0
2
and 6 (minimum of 4 credits of elective course)
JM 304
Digital System
2
2
0
3
15
7
3
18
TOTAL
** For Muslim Students Students L : Lecture
*** For Non Muslim Muslim Students Students
P : Practical / Lab
T : Tutorial
C : Credit
58
6.5.7 MATRIX OF PROGRAM ASSESSMENT (DEM)
Quiz
Code & Course
Theory Test Qty %
Qty
%
2
10
2
JM101 Mechatronic Workshop Practice 1
-
-
JJ102 Electrical Technology
4
JJ108 Engineering Laboratory 1
Practical Test
Practical Work
Other Assessment
Final Exam
Qty
%
Qty
%
Qty
%
%
30
-
-
6
60
-
-
-
-
-
5
40
5
40
5
20
-
20
2
30
-
-
-
-
5
30
100
-
-
-
-
-
-
8
60
4
40
-
JM201 Mechatronic Workshop Practice 2
-
-
-
-
15
40
15
40
15
20
-
JJ205 Engineering Mechanics
4
20
2
40
-
-
-
-
2
40
100
JJ207 Thermodynamic 1
4
40
2
40
-
-
-
-
3
20
100
JJ206 Computer Aided Design 1
-
-
-
-
2
40
6
60
-
-
-
JM202 Electronic System
4
20
2
20
-
-
12
30
4
30
100
JF302 Material Technology 1
2
20
2
40
-
-
-
-
3
40
100
JJ310 Strength of Materials
4
20
2
30
-
-
-
-
3
50
100
JM303 Industrial Electronic
4
20
2
40
3
10
3
10
3
20
100
JJ309 Fluid Mechanics
4
20
2
30
-
-
-
-
3
50
100
JM304 Digital System
4
20
2
40
2
10
4
10
3
20
100
JJ512 Pneumatic & Hydraulics
3
20
2
40
-
-
8
20
3
20
100
JM505 Microprocessor and Microcontroller
4
20
2
20
3
20
3
20
3
20
100
JJ101 Engineering Drawing
59
JM506 Programmable Logic Controller
3
25
2
15
-
-
13
30
3
30
100
JM507 Control System
4
25
2
15
-
-
5
30
3
30
100
JJ514 Project 1
-
-
-
-
-
-
-
-
4
100
-
JJ614 Project 2
-
-
-
-
-
-
-
-
7
100
-
JM608 Industrial Automation
4
10
2
20
4
30
4
30
3
10
100
JM609 Power Transfer Mechanism
3
20
2
30
-
-
-
-
4
50
100
JM610 Basic Power Electronic
3
15
1
15
-
-
4
40
3
30
100
JM601 Mechatronic Workshop Practice 3
4
10
2
10
6
35
6
35
3
10
-
JF504 CADCAM
-
-
-
-
2
30
5
50
1
20
-
JF608 Quality Control
2
20
2
40
-
-
-
-
3
40
100
JJ619 Industrial Management
4
20
2
40
-
-
-
-
3
40
100
BC301 Visual Programming
5
20
2
30
-
-
5
25
4
25
-
60
6.6
LAB FACILITIES IN MECHANICAL ENGINEERING DEPARTMENT Name
Instrumentation Lab (Makmal Instrumentasi) Pneumatic & Hydraulic Lab (Makmal Pneumatik & Hidraulik) Plant Lab (Makmal Loji) CNC Lab (Makmal CNC) Mechanic of Material Lab (Makmal Kajidaya Bahan) Grinding Machine Lab (Makmal Mesin Pengisar) Fluid Lab (Makmal Bendalir) Mechatronic Lab (Makmal Mekatronik) Robot Lab (Makmal Robot) EDGECAM Lab (Makmal EDGECAM) Metallurgy Lab (Makmal Metalurgi) Metrology Lab (Makmal Metrologi) Mechanic of Machine Lab (Makmal Kajidaya Mesin) CAD Computer Lab (Makmal Komputer CAD) Robot Soccer Lab (Makmal Robot Soccer) Foundry Workshop (Bengkel Foundri) Lathe Machine Workshop (Bengkel Mesin Larik) Milling Machine Workshop (Bengkel Mesin Peraut) Welding Workshop (Bengkel Kimpalan) Fitting Workshop (Bengkel Gegas)
Quantity
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Lab Supervisor
En. Ahmad Zuhardi Bin Hussian Pn. Siti Khalijah Bt Jamal En. Rozie Bin Ahmad En. Rudy B. Norbin En. Lian Liun En. Petrus Banati @ Fazzerius En. Sh. Yaccub Bin Sh. Attar En. Muhamad Noor Bin Abu Hassan En. Mohd Aswadi Bin Muhamad En. Sufandi Bin Mohd Johan En. Abdul Razak Bin Mohd Daim En. Zulkifli Bin Abd Aziz Pn. Angela ak Merum En. Chen Kok Min En. Mohd Shamsul Bin Atan En. Mohd Shukri Bin Abdul Hamid En. Mohd Nazrul Azlan Bin Abd Rashid En. Mohd Hafez Bin Abdul Karim En. Khairul Afizal Bin Sultan Ali En. Richard Tiam @ Aloysius Pn. Chica Bagu Pn. Limi Chong En. Sahrizan Bin Mohamad Sahari En. Mohd Hairol Mizzam Bin Haris En. Sylvester Gindan En. Aliudin Bin Aziz En. Mohd Hafez Bin Abdul Karim En. Kevin Ligunjang En. Mohd Safei Bin Manan Pn. Noorazian Binti Mohd Arshad En.Muhammad Amin Bin Harun Pn. Angela Wetron Pai En. Mohd Hissham Bin Idris En. Jahari Bin Yaakob En. Noor Hanan Bin Senin En. Saffuan Bin Awg Bahrin En. Roslee Bin Ghani En. Azlan Bin Ali En. Tony Ontok En. Khairol Hisam Bin Hamran
61
6.7
HIGHER ACADEMIC PATHWAY
Advance Diploma Programme
Advance Diploma in Mechanical Engineering
Politeknik Premier Ungku Omar (PUO), Jalan Raja Musa Mahadi, Ipoh, 31350, Perak.
Mechanical Engineering Department. Telefon : +605-5457260 Faks : +605-5471162 Web : www.puo.edu.my
Advance Diploma in Mechatronic Engineering
Politeknik Premier Johor Bahru (PJB), Jalan Kong Kong, 81700, Pasir Gudang, Johor.
Mechanical Engineering Department. Telefon : +605-5457260 Faks : +605-5471162 Web : www.polijb.edu.my
62
Malaysian Technical University Network (MTUN)
Bachelor of Mechanical Engineering Bachelor of Mechatronics Engineering
Timbalan Pendaftar Kanan, Pejabat Pengurusan Akademik, Universiti Tun Hussein Onn Malaysia, 86400 Parit Raja, Batu Pahat, Johor. Tel : 07-4537681/ 7655/ 7687/ 7689/ 7694 Faks : 07-4536085 Emel :
[email protected] Web : www.uthm.edu.my
UTeM
Bachelor of Mechanical Engineering (Design and Innovation) Bachelor of Mechanical Engineering (Structure and Materials) Bachelor of Mechanical Engineering (Thermal-Fluids) Bachelor of Mechatronics Engineering Bachelor of Manufacturing Engineering (Manufacturing Process) Bachelor of Manufacturing Engineering (Manufacturing Design) Bachelor of Manufacturing Engineering (Robotic and Automation) Bachelor of Manufacturing Engineering (Manufacturing Management) Bachelor of Manufacturing Engineering (Engineering Materials)
Bachelor of Mechanical Engineering Bachelor of Mechanical Engineering with Manufacturing Bachelor of Mechatronics Engineering
Bahagian Pengurusan Akademik, Universiti Teknikal Malaysia Melaka, Karung Berkunci 1752, Pejabat Pos Durian Tunggal, 76109 Durian Tunggal, Melaka. Tel : 06-3316086/ 6078/ 6077/ 6073/ 6076 Faks : 06-3316079 Emel :
[email protected] Web : www.utem.edu.my
Bahagian Pengurusan Akademik, Kompleks Perkhidmatan Siswa, Universiti Malaysia Pahang, Karung Berkunci 12, 25000 Kuantan, Pahang Darul Makmur. Tel : 09-549 2550/ 2557 Faks : 09-549 2555Emel : Web : www.ump.edu.my
Bachelor Engineering in Mechanical Bachelor Engineering in Manufacturing Bachelor Engineering in Product Design Bachelor Engineering in Mechatronics Engineering Bachelor Engineering in Material Engineering Bachelor Engineering in Metallurgy Engineering Bachelor Engineering in Polymer Engineering
Pendaftar, Bahagian Pengurusan Akademik, Jabatan Pendaftar, Universiti Malaysia Perlis, No. 34 & 35 Bersebelahan Hong Leong Bank, Jalan Bukit Lagi, 01000 Kangar, Perlis. Tel : 04-9798701/ 8702/ 8706 Faks : 04-9798703 Emel :
[email protected] Web : www.unimap.edu.my
63
64
7.1
MATHEMATICS, SCIENCE AND COMPUTER DEPARTMENT (JMSK)
7.1.1 ORGANISATION CHART
HEAD OF DEPARTMENT
[Vacant] DH 48
ASST. HEAD OF DEPT Noorhayani Yahya [DH 44]
SECRETARY Nuramalina Mohd Nazri
HEAD OF COURSE (MATHEMATIC) Rose Sharijan Frey Khan [DH 44]
HEAD OF COURSE (SCIENCE) Nazlein Mohd Nawawi [DH 44]
HEAD OF COURSE Noorhayani Yahya [DH 44]
ASST. HEAD OF MATHEMATIC Helley Halen
ASST. HEAD OF SCIENCE Azira Mohd Puteh
ASST. HEAD OF COMPUTER Suziyana Ahmad Aman
LECTURERS
LECTURERS
LECTURERS
1. 2. 3. 4. 5. 6.
Adeline Ahyun @ Sylvester Jamal Subur Suria Masnin Taj Nesha Begam Baisul Khan Darman Pawali Rozita Saad
1. Siti Nor Atika Sulaiman 2. Wetty Palipi 3. Jalleh Bokiom 4. Dzulkeflee Ismail 5. Nuramalina Mohd Nazri 6. Masran Kuba (Lab Assisstant)
1. 2. 3. 4. 5. 6.
Siti Nazura Senan Azreen Khamis Azilah Abdul Rahim Mohd Hardy Diman Shahrah Hamat Siti Khuzaimah Jamri
65
7.1.2 MATHEMATICS, SCIENCE AND COMPUTER DEPARTMENT LECTURERS
No
Name
Designation
1
[Vacant]
Head Of Department
2
Noorhayani Bt Yahya
3
Rose Sharijan Bt Frey Khan
4
Nazlein Bt Mohd Nawawi
5
Adeline Bt Ahyun @ Sylvester
Lecturer
6
Azilah Binti Abd Rahim
Lecturer
7
Azira Bt Mohd Puteh
Lecturer
8
Azreen Binti Khamis
Lecturer
9
Darman Bin Pawali
Lecturer
10
Dzulkeflee Bin Ismail
Lecturer
11
Helley Halen
Lecturer
12
Jalleh Bokiom
Lecturer
13
Jamal Bin Subur
Lecturer
14
Mohd Hardy Bin Diman
Lecturer
15
Nor Khuzaimah Binti Jamri
Lecturer
16
Nuramalina Binti Abd Nasir
Lecturer
17
Rozita Binti Saad
Lecturer
18
Siti Nazura Binti Senan
Lecturer
19
Siti Nor Atika Binti Sulaiman
Lecturer
20
Suria Binti Masnin
Lecturer
21
Suziyana Bt Ahmad Aman
Lecturer
22
Taj Nesha Begam Bt Baisul Khan
Lectu rer
23
Weitty Palipi
Lecturer
24
Masran B Kuba
Head Of Course (Computer) Head Of Course (Mathematic) Head Of Course (Science)
Lab Assistant
Contact No. 08-8499980 (801) 088-499980 (885) 088-499980 (885) 088-499980 (885) 088-499980 (806) 088-499980 (804) 088-499980 (803) 088-499980 (802) 088-499980 (806) 088-499980 (806) 088-499980 (806) 088-499980 (806) 088-499980 (806) 088-499980 (806) 08-8499980 (806) 088-499980 (806) 088-499980 (803) 088-499980 (806) 088-499980 (802) 088-499980 (806) 088-499980 (804) 088-499980 (803) 08-8499980 (806) -
E-mail ‐
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] -
66
7.1.3 COURSE LEARNING OUTCOME (JMSK)
R E T S E M E S
1
1
E S R U O C
1 s c i t a m e h 1 t 0 a 1 M A g B n i r e e n i g n E
e c n e i c 1 S 0 g 1 n B i r B e e n i g n E
SYNOPSIS
COURSE LEARNING OUTCOME (CLO)
ENGINEERING MATHEMATICS 1 exposes students to algebra through theory, practical and tutorial which focuses on standard form, index and logarithm, geometry and measurement as well as coordinate geometry and graph. This course also explains the basic concept of trigonometry and its functions in solving problems.
1. Show all the relevant steps in solving simultaneous linear equations with two variables and quadratic equations by using various methods based on basic algebraic concept. 2. Perform algebraic operations in standard form form and simplify indices and logarithmic expressions by using index and logarithm rules in solving related problems. 3. Apply the fundamental of trigonometric functions, functions, sine and cosine rules, basic trigonometric identities, formula of compound-angle and double-angle in solving simple trigonometric equations. 4. Determine angles, arc length, area of a sector and segment by applying the Pythagoras’ Theorem, the properties of angles with transversal and parallel lines and properties of circles. 5. Calculate the length, perimeter, perimeter, area and volume of specific and similar shapes by using appropriate formulae and concept of similarity. 6. Demonstrate sketching sketching and drawing of linear, quadratic and non-linear graphs accurately to solve simultaneous equations based on intersection points between two lines.
CREDIT ( S ) : 2 PREREQUISITE(S) : NONE
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 and Measurement, Linear Motion, Force, Work, Energy and Power, Solid and Fluid, Temperature and Heat and Electricity.
CREDIT ( S ) : 2 PREREQUISITE(S) : NONE
1. Identify precisely physical quantities and measurement to solve problems in mechanical system and linear motion. 2. Manipulate correctly correctly the forces in mechanical system to be applied in relevant problem-solving. 3. Solve problem by analyze accurately the relationship between work, energy and power in mechanical system. 4. Relate accordingly the relationship relationship between properties of solid and fluid materials, density and pressure in mechanical system to solve problems given. 5. Determine exactly the temperature and heat in energy transfer process and basic electricity in electrical system to be applied in relevant problem-solving .
67
1
n o i t a c i l p 1 p 0 1 A r C e B t u p m o C
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 to different packages of software Applications for word processor, spreadsheet, project management, presentation and internet. The students will also have opportunity to manipulate and create a variety of techniques and styles to produce documents, spreadsheets, charts and presentations. This course emphasizes on the practical aspects of using computer applications.
1. Write a list of basic computer system which consists of software, hardware and operating systems. 2. Produce documents in form of report by choosing appropriate design templates based on word processor software. 3. Manage large amounts amounts of data in a table with appropriate operations based on spreadsheet software design templates. 4. Create Gantt chart using Gantt chart wizard based based on project management software. 5. Use internet ethically to search appropriate data for group project. 6. Present clearly a report findings findings based on presentation software design templates.
CREDIT ( S ) : 1 PREREQUISITE(S) : NONE
2
3
2 s c i t a m e h 1 t 0 a 2 M A g B n i r e e n i g n E
3 s c i t a m e h 1 t 0 a 3 M A g B n i r e e n i g n E
ENGINEEERING MATHEMATICS 2 provide exposure to students regarding complex numbers which explains real and imaginary numbers. This course also emphasizes on calculus and its applications.
CREDIT ( S ) : 2 PREREQUISITE(S) : BA101
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.
CREDIT ( S ) : 2 PREREQUISITE(S) : NONE
1. Perform basic operations on complex numbers stated in various forms using algebraic operations or by constructing Argand’s diagrams. 2. solve problems by applying various differentiation differentiation techniques to determine the derivatives of algebraic, trigonometric, logarithmic , exponential and parametric functions up to the second order. 3. relate the appropriate applications applications of differentiation in determining stationary points to solve real life optimization and kinematic problems . 4. discuss the solutions of problems by applying integration methods to determine the definite and indefinite integrals of algebraic, trigonometric, reciprocal and exponential functions. 5. explain the applications applications of integration integration to calculate calculate area and volume of bounded region and to interpret kinematic problems. 1. Conduct organization of raw data into useful statistics to compute central tendencies and dispersions using appropriate formulae or graphical methods. 2. Solve problems in group by applying Trapezium and Simpson’s Rule to estimate the surface area of irregular shapes. 3. Differentiate between characteristics of an Arithmetic Progression (AP) and a Geometric Progression (GP) in order to solve related problems based on correct use of concept formulae and identification of patterns in a series of numbers. 4. Solve simultaneous linear equations up to 3 variables in group by using various methods based on the utilization matrices. 5. Discuss in group the process of locating the roots of non-linear equations accurately by using the simple fixed point iteration and Newton-Raphson methods.
68
5
6
4 s c i t a m e h 1 t 0 a 5 M A g B n i r e e n i g n E
5 s c i t a m e h 1 t 0 a 6 M A g B n i r e e n i g n E
ENGINEERING MATHEMATICS 4 consists of topics such as binomial and series expansion as well as vector, scalar and partial fraction. This course also introduces the Laplace Transform and its use in solving advanced calculus problems. Analytical geometry is also discussed.
CREDIT ( S ) : 2 PREREQUISITE(S) : BA201
ENGINEERING MATHEMATICS 5 consists of topics such as binomial and series expansion as well as vector, scalar and partial fraction. This course also introduces the Laplace Transform and its use in solving advanced calculus problems. Analytical geometry is also discussed.
CREDIT ( S ) : 2 PREREQUISITE(S) : BA501
1. Determine the approximate value for (a + b) n based based on binomial expansion. 2. Build the series for trigonometric, exponential exponential and logarithmic functions using Power series, Maclaurin’s series and Taylor’s series. 3. Solve vectors’ problems especially areas, volumes and angles by applying vector and scalar products. 4. Produce partial fractions for proper and improper fractions with linear, repeated linear and quadratic factors. 5. Discuss in group the solution of advanced calculus problems using Laplace Transform and Inverse Laplace Transform based on appropriate theorems. 6. Explore in group group the analytical geometry for conics through analysis of their equations and sketching their graphs. 1. Find the values for hyperbolic, inverse hyperbolic and inverse trigonometric functions based on solid comprehension of these functions. 2. Differentiate hyperbolic, inverse hyperbolic, hyperbolic, inverse trigonometric and implicit functions using advanced differentiation formulae or methods respectively 3. Discuss in group the solutions of total total differentiation differentiation problems by using partial differentiations. 4. Carry out integration of various functions using advanced integration methods and formulae. 5. Discuss in group the solutions of first and second order differential equations by using the appropriate methods.
69
7.1.4 MATRIX OF COURSE ASSESSMENT (JMSK) Theory Test
Quiz
End Of Chapter
E-Quiz
Lab Work
Other Assessment
Final Exam
Code & Course
BA101 Engineering Mathematics 1 BB101 Engineering Science BC101 Computer Application BA201 Engineering Mathematics 2 BA301 Engineering Mathematics 3 BA501 Engineering Mathematics 4 BA601 Engineering Mathematics 5
Qty
%
Qty
%
Qty
%
Qty
%
Qty
%
Qty
%
%
3
20
2
30
2
20
2
10
2
20
-
-
100
4
20
2
30
4
20
-
-
4
30
-
-
100
4
20
2
30
-
-
-
-
5
30
20
-
4
30
2
30
2
25
-
-
-
-
15
100
4
20
2
30
2
25
-
-
-
-
25
100
4
30
2
30
2
25
-
-
-
-
15
100
4
30
2
30
2
20
-
-
-
-
20
100
2
3
3
3
2
7.1.5 LAB FACILITIES
Name
Quantity
Lab Supervisor
Science Lab
1
Siti Nor Atika Binti Sulaiman
70
7.2
GENERAL STUDIES DEPARTMENT (JPA)
7.2.1 ORGANISATION CHART HEAD OF DEPARTMENT Abdul Khalil Bin Khalid [DH48]
ASSISTANT HEAD OF DEPARTMENT Annie Gedion [DH44]
SECRETARIES 1. Noraini Binti Lunchin 2. Cann anne Pa Paul
1. 2. 3. 4. 5. 6. 7.
HEAD OF MORAL COURSE Annie Gedion [DH44]
HEAD OF ISLAMIC EDUCATION COURSE Norni Bt Abdul Wahab [DH44]
HEAD OF LANGUAGE COURSE Teh Phaik Sim [DH44]
ASSISTANT HEAD OF COURSE Isa Bin Ismail
ASSISTANT HEAD OF COURSE Raja Ahmad Bin Raja Husin
ASSISTANT HEAD OF COURSE Gouri Punnusamy
LECTURERS
LECTURERS
LECTURERS
Chu Voon Yee @ Sandy Chow Kwai Yok Elnie Binti Henry Yapolai Esther Jawing Liza Blasius Golingi Ng Shi Ing Johan Severinus Tati
1. Zaliha Mat Isa 2. Azizan Binti Mohamed 3. Dorah Mohd Darul 4. Khairul Fitri Bin Mohd. 5. Mohammad Tarmizi Balya 6. Mohammad Yusof Bin Jusoh 7. Muhammaddin Bin Mohd. Jair 8. Nor Suhaila Binti Abdul Ghani 9. Roshadah Binti Abu Bakar 10. Qamariah Bt Makmud
1. Gouri Punnusamy 2. Chu Voon Yee @ Sandy 3. Vun Jing Shu 4. Anna Alicia Juanis 5. Ardino Diris 6. Canne Paul 7. Cynthia Nicholas 8. Chow Kwai Yok 9. Dayang Nurdiyana Bt Abdul Hamid 10. Elnie Binti Henry Yapolai 11. Esther Jawing 12. Georginia Alicia Ejus 13. Liza Blasius Golingi 14. Jaime A/K Mundu 15. Johan Severinus Tati 16. Ng Shi Ing 17. Noor Herlina Lee 18. Noraini Binti Lunchin 19. Suzannie Stephen Galaut 20. Ting Ee Lee 21. Wan Zara Natasha Bt Wan Mohd Isa
71
7.2.2 GENERAL STUDIES DEPARTMENT LECTURERS
No
Name
Designation
1
Abdul Khalil Bin Khalid
Head Of Department
2
Annie Gedion
Head Of Programme
3
Norni Bt Abdul Wahab
Head Of Programme
4
Teh Phaik Sim
Head Of Programme
5
Anna Alicia Juanis
Lecturer
6
Ardino Diris
Lecturer
7
Azizan Binti Mohamed
Lecturer
8
Canne Paul
Lecturer
9
Chow Kwai Yok
Lecturer
10
Chu Voon Yee @ Sandy
Lecturer
11
Cynthia Nicholas
Lecturer
12
Dayang Nurdiyana Bt Abdul Hamid
Lecturer
13
Dorah Mohd Darul
Lecturer
14
Elnie Binti Henry Yapolai
Lecturer
15
Esther Jawing
Lecturer
16
Georginia Alicia Ejus
Lecturer
17
Gouri Punnusamy
Lecturer
18
Isa Bin Ismail
Lecturer
19
Jacinta Caroline Peter
Lecturer
20
Jaime A/K Mundu
Lecturer
21
Johan Severinus Tati
Lecturer
22
Khairul Fitri Bin Mohd.
Lecturer
23
Liza Blasius Golingi
Lecturer
24
Mohammad Tarmizi Balya
Lecturer
25
Mohammad Yusof Bin Jusoh
Lecturer
26
Muhammaddin Bin Mohd. Jair
Lecturer
27
Ng Shi Ing
Lecturer
Contact No. 088-499980 (851) 088-499980 (852) 088-499980 (862) 088-499980 (853) 088-499980 (859) 088-499980 (859) 088-499980 (856) 088-499980 (859) 088-499980 (860) 088-499980 (856) 088-499980 (859) 088-499980 (860) 088-499980 (859) 088-499980 (860) 088-499980 (860) 088-499980 (860) 088-499980 (856) 088-499980 (857) 088-499980 (860) 088-499980 (860) 088-499980 (860) 088-499980 (860) 088-499980 (860) 088-499980 (860) 088-499980 (857) 088-499980 (860) 088-499980 (856)
E-mail
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected]
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28
Noor Herlina Lee
Lecturer
30
Nor Suhaila Binti Abdul Ghani
Lecturer
31
Noraini Binti Lunchin
Lecturer
32
Qamariah Bt Makmud
Lecturer
33
Raja Ahmad Bin Raja Husin
Lecturer
34
Roshadah Binti Abu Bakar
Lecturer
35
Suzannie Stephen Galaut
Lecturer
36
Ting Ee Lee
Lecturer
37
Vun Jing Shu
Lecturer
38
Wan Zara Natasha Bt Wan Mohd Isa
Lecturer
39
Zaliha Mat Isa
Lecturer
088-499980 (859) 088-499980 (856) 088-499980 (860) 088-499980 (859) 088-499980 (860) 088-499980 (857) 088-499980 (860) 088-499980 (856) 088-499980 (856) 088-499980 (860) 088-499980 (857)
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected]
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7.2.3 COURSE LEARNING LEARNING OUTCOME (JPA)
R E T S E M E S
1
2
3
E S R U O C
1 M A L S 1 I 0 N 1 A A K A I D I D N E P
2 M A L S 1 I 0 N 2 A A K A I D I D N E P
M A L S 1 I 0 N 3 U A A D A M A T
SYNOPSIS
PENDIDIKAN ISLAM 1 memberi pengetahuan tentang kaedah pembacaan al-Quran,konsep ilmu dan tasawwur Islam meliputi akidah, syariah dan akhlak. Penekanan kursusini adalah terhadap penghayatan akidah Islam serta perlaksanaan ibadah-ibadah dalam kehidupan seharian. Kursus ini juga dapat memberi panduan dalam membentuk sikap bertanggungjawab terhadap Allah SWT, manusia dan alam.
KREDIT : 2 PRASYARAT : TIADA
PENDIDIKAN ISLAM 2 memberi pengetahuan tentang konsep-konsep kekeluargaan Islam merangkumi isu-isu dan petikan Enakmen Keluarga Islam yang berkaitan dengannya. Selain itu, topik sumber-sumber hukum, pengurusan jenazah dan hokum jenayah Islam turut didedahkan dalam kursus ini. Kandungannya lebih memfokuskan cara-cara menangani permasalahan kekeluargaan serta membentuk sikap positif dalam kehidupan berkeluarga, bermasyarakat dan bernegara.
KREDIT : 2 PRASYARAT : TIADA
KURSUS TAMADUN ISLAM diperkenalkan untuk mendedahkan para pelajar terhadap konsep asas dan prinsip Tamadun Islam. Kursus ini juga membincangkan secara terperinci tentang perjalanan sejarah Tamadun Islam yang bermula pada Zaman Rasulullah SAW sehingga kini yang merangkumi pelbagai aspek seperti perkembangan ilmu pengetahuan, politik, ekonomi dan sosial. Di akhir kursus ini pelajar didedahkan dengan perbincangan topik pemikiran Islam dan isu-isu semasa yang berkaitan dengan Tamadun Islam.
KREDIT : 2 PRASYARAT : TIADA
COURSE LEARNING OUTCOME (CLO)
1. Membaca ayat-ayat al-Quran dengan bertajwid dan menghafaz surah-surah yang diberikan semasa sesi amali 2. Menerangkan dengan jelas konsep ilmu da lam Islam supaya dapat diamalkan sepanjang hayat 3. Memperkukuhkan pemahaman Tasawwur Islam untuk dijadikan panduan hidup melalui penulisan analitikal berdasarkan situasi yang diberikan 4. Mempamer akhlak terhadap Allah SWT, rasul dan sesama manusia serta menjelaskan secara bertulis isu akhlak berdasarkan situasi yang diberikan 5. Menunjuk cara perlaksanaan ibadah dalam Islam dengan betul dan dipraktikkan dalam kehidupan
1. Menggunakan ilmu-ilmu yang berkaitan dengan kekeluargaan Islam untuk diamalkan dalam kehidupan seharian. 2. Menjelaskan secara bertulis isu-isu kekeluargaan yang diberikan dan membentangkannya secara berkumpulan untuk dijadikan panduan dalam menyelesaikan permasalahan kekeluargaan dengan berkesan. 3. Menjustifikasikan dengan tepat sumber hukum iaitu al-Qur’an, al-Sunnah, al-Ijmak dan al-Qiyas yang digunakan oleh para ulama dalam mengeluarkan hukum. 4. Menunjuk cara pengurusan jenazah secara amali berdasarkan langkahlangkah yang ditetapkan supaya dapat dipraktikkan dalam kehidupan. 5. Mengenalpasti hukum jenayah dalam Islam sebagai panduan dalam kehidupan
1. Menjelaskan dengan tepat tepat konsep Tamadun Islam. 2. Menulis secara kritis dan kreatif sejarah sejarah kemunculan dan perkembangan Tamadun Islam sejak Zaman Nabi Muhammad SAW sehingga kini serta membentangkannya secara berkumpulan. 3. Menganalisis konsep kejadian manusia menurut pandangan Islam dan sains supaya dapat difahami hakikat kejadian diri dan mensyukurinya. 4. Menerangkan secara menyeluruh Tamadun Islam yang telah terbukti Berjaya memberi sumbangan besar terhadap perkembangan ilmu dan tamadun manusia supaya dapat dipraktikkan dalam kehidupan seharian. 5. Membincangkan dan membentangkan penyelesaian kepada isu-isu semasa berdasarkan kerangka pemikiran Tamadun Islam.
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1
2
1
1 l a r o 2 M 0 n 1 a A i k A d i d n e P
2 l a r o 2 M 0 n 2 a A i k A d i d n e P
1 h s i l g n E 1 e 0 i v 1 t E a c A i n u m m o C
PENDIDIKAN MORAL 1 memberi pengetahuan tentang konsep asas moral. Kursus ini menekankan konsep dan teori moral serta peranan individu terhadap masyarakat dan negara. Kursus ini juga menerangkan elemen-elemen yang mencabar nilai moral di politeknik.
KREDIT : 2 PRASYARAT : TIADA
PENDIDIKAN MORAL 2 memberi pengetahuan tentang kesan kemajuan sains dan teknologi maklumat. Kursus ini menekankan tentang pembentukan moral dan etika, isu-isu moral semasa dan isu-isu remaja. Kursus ini juga membincangkan etika keprofesionalisma dalam menghadapi pelbagai cabaran hidup.
KREDIT : 2 PRASYARAT : TIADA
COMMUNICATIVE ENGLISH 1 focuses on speaking skills to develop the ability to communicate effectively and confidently. It is designed to provide students with useful expressions that can be used in a wide variety of social interactions and situations. It also provides students with an opportunity to initiate and participate in group discussions.
CREDIT(S) : 2 PREREQUISITE(S) : NONE
1. Menerangkan dengan jelas kepentingan kepentingan Pendidikan Moral dalam Falsafah Pendidikan Negara. 2. Membezakan dengan tepat konsep-konsep dan teori-teori asas moral supaya dapat diaplikasikan diaplikasikan dalam kehidupan seharian. 3. Menjelaskan secara menyeluruh kebertanggungjawaban dan peranan individu terhadap masyarakat dan negara berdasarkan situasi yang diberi serta membentangkannya secara berkumpulan. 4. Menyatakan dengan jelas dasar-dasar utama mewujudkan masyarakat Malaysia untuk menjamin keamanan dan keharmonian negara terus terpelihara. 5. Membentangkan dengan tepat secara berkumpulan elemen-elemen yang mencabar nilai-nilai moral dan mencadangkan penyelesaiannya.
1. Menerangkan dengan jelas tentang kesan kemajuan sains dalam kehidupan kehidupan manusia. 2. Menjelaskan secara terperinci kebaikan dan keburukan perkembangan teknologi teknologi maklumat supaya dapat dimanfaatkan dalam kehidupan seharian. 3. Membentangkan dengan tepat isu-isu semasa yang melibatkan remaja dan dunia secara berkumpulan berdasarkan situasi yang diberi diberi dan mencadangkanpenyelesaiannya secara bertulis. bertulis. 4. Membincangkan dalam bentuk penulisan penulisan kepentingan kod etika keprofesionalisme bagi melahirkan tenaga kerja yang berintegriti 5. Menulis dengan jelas kesan budaya kerja negatif negatif terhadap kerjaya individu dan kemajuan Negara bagi memastikan kestabilan Negara.
1. Use appropriate communication skills and registers for social interactions and discussions. 2. Listen to selected conversations/speeches and respond appropriately. 3. Apply dictionary skills correctly to check meanings,pronunciation and usage of words. 4. Pronounce words correctly based on phonetic symbols. 5. Read and respond appropriately to current issues/topics of interest. 6. Write and speak effectively in response to current issues/topics of interest. 7. Communicate to an audience confidently using effective delivery techniques, organizational strategies, graphics and visual support.
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3
5
2 h s i l g n E 1 e 0 i v 3 t E a c A i n u m m o C
3 h s i l g n E 1 e 0 i v 5 t E a c A i n u m m o C
COMMUNICATIVE ENGLISH 2 emphasises the skills needed to describe products 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.
CREDIT(S) : 2 PREREQUISITE(S) : AE101 COMMUNICATIVE ENGLISH 1
COMMUNICATIVE ENGLISH 3 aims to develop critical reflection skills in the students. It also emphasises work-related communication skills. Students will learn the process of job hunting which includes job search strategies and awareness of workplace issues. The students will develop skills to introduce themselves, highlight their strengths and abilities, present ideas, express opinions and able to establish rapport and respond appropriately during interviews.
CREDIT(S) : 2 PREREQUISITE(S) : AE301 COMMUNICATIVE ENGLISH 2
1. Describe products and services clearly and confidently. 2. Describe processes and procedures using appropriate language devices. 3. Give clear instructions using the imperatives and respond to instructions appropriately. 4. Make and respond to enquiries using appropriate language. 5. Make and respond to different types of complaints using appropriate language. 6. Deliver an oral presentation on a product/ service or a process/ procedure using suitable visual aids.
1. Present ideas and opinions in oral and written form. 2. Read and analyse job advertisements. 3. Make and reply to job enquiries. 4. Prepare resumes when applying for jobs. 5. Write cover letters to accompany resumes. 6. Respond to interview questions using appropriate language.
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7.2.4 MATRIX OF COURSE ASSESSMENT
Quiz
Code & Course
AA102 Pendidikan Moral 1 AA202 Pendidikan Moral 2 AE101 Communicative English 1 AE301 Communicative English 2 AE501 Communicative English 3 AA101 Pendidikan Islam 1 AA201 Pendidikan Islam 2 AA301 Tamadun Islam
Other Assessment Qty %
Qty
%
2
30
1
2
30
2
Presentation
Practical Task Qty %
Listening Test Qty %
End Of Chapter Qty %
Qty
%
20
2
20
-
-
-
-
-
3
30
1
10
-
-
-
-
10
1
15
3
50
1
15
1
2
20
1
10
3
50
-
-
2
20
3
35
2
40
-
2
30
1
20
-
-
2
30
-
-
-
2
30
1
20
2
Qty
%
-
1
30
-
-
1
30
10
-
-
-
-
2
20
-
-
2
20
-
1
5
-
-
-
-
2
20
-
-
-
-
1
30
-
2
30
-
-
2
10
1
30
20
-
-
-
-
-
-
1
30
7.2.5 LAB FACILITIES IN GENERAL STUDIES DEPARTMENT
Name
Language Lab
Quantity
Test
Lab Supervisor
1
Dorah Mohd Darul
1
Anna Alicia Juanis
1
Elnie Binti Henry Yapolai
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7.3
CO-CURRICULUM UNIT
Function
Contact Personnel
Contact No
Co-Curriculum Unit is responsible for managing and coordinating all co-curriculum courses in the Politeknik Kota Kinabalu. It is designed to ensure that all co-curriculum courses to be implemented smoothly and effectively.
MD SYADIQIN BIN AWG ADIE @ JUMAT (AR101 Polibriged) DH44
Ext : 121
ERNIE BINTI KULIAN @ ABD KARIM (AR201 Clubs, Sport And Uniform) DH44
Ext : 126
EDWARD JOHN (AR201 Clubs, Sport And Uniform) DH41
Ext : 126
7.3.1 AR101 : POLIBRIGED This course emphasizes on the basic skills of team work which includes marching, first aid, fire prevention, protocol and social etiquette, self management and self esteem. It is compulsory for students in semester 1 and is implemented in theory and practical for 12 weeks or 24 hours in a semester. The division of time as according to the syllabus:
Synopsis
Time Allocation
Marching
Introduction to basic practical marching of foot especially the stationary and regular march.
8 hours
First Aid
Definitions and methods of first aid treatment.
4 hours
Fire Prevention
Introduction to the types of fire and fire fire incidents, the causes of fires, fire prevention, and procedures for evacuation of building / fire area.
4 hours
Protocol and Social Etiquette
Introduction to protocol, social etiquette and ethics, ethics, dinner table etiquette and considerations in oraganizing official ceremonies.
4 hours
Self Management and Self Esteem
Introduction to concepts of self-management, effective communication and basic camping skills
6 hours
Syllabus
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7.3.2 AR201 : CLUBS, SPORT AND AND UNIFORM In general, the Co-curriculum is a compulsory module for students in semester one and two with a value of 1 credit hour. Semester students are required to follow the Co-curriculum Modules AR101 (Polibridge) while the second semester students are required to follow the Co-curriculum Modules AR201 (Clubs, Sport and Uniform). These modules introduce students to various basic skills of individual or group. Continuous assessment of students is made in the form of practical and theory. The following are 24 Clubs, Sports and Uniform offered at the Politeknik Kota Kinabalu for AR201:
Uniform Unit 1. 2. 3. 4. 5.
St John Ambulance Plas TLDM Pengakap kelana JPAM Fire & Rescue
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11.
Sports Chess Dart Golf Silat Tennis Archery Netball Basketball Tae-Kwan-Do Football Tenpin Bowling Clubs
1.
Environmentally Friendly
Teaching and Learning Introduces the history of the uniform unit, basic rescue, rope tying, fire extinguishers, camp management and organizational management.
Teaching and Learning
Introduces the history of sports, basic skills, basic officer and the rules, demonstrates the basic techniques of the game also the concept of fitness and injury and also organizational management.
Teaching and learning Introduces the club's history, basic skills, environmental club activities and organizational management. Introduces the history of audio visual, basic skills, the use of audio visual equipment, filming procedures, computer use in audio visual and organization management. Introduces the history of photography, basic skills, the use of audio visual equipment, filming procedures, computer use in photography and organization management. Introduces the history of photography, basic skills, the use of audio visual equipment, filming procedures, computer use in photography and organization management. Introduces the history of adventure, basic skills, map reading techniques, use of compass, rescue methods, activities and requirements and organizational management. Introduces the history of adventure, basic skills, map reading techniques, use of compass, rescue methods, activities and requirements and organizational management.
2.
Audio Visual
3.
Photography 1
4.
Photography 2
5.
Adventure 1
6.
Adventure 2
7.
Traditional Dance
Describes the historical development, basic dance, choreography techniques, step movement structures and organization o rganization management.
8.
Dikir Barat
Describes the historical development, dikir barat, choreography techniques, step movement structures and organization management.
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8.0
SUPPORT SERVICES
8.1
STUDENT AFFAIRS DEPARTMENT (HEP)
Our role is to contribute to the mission of Politeknik Kota Kinabalu (PKK) by partnering with other academic and administrative units to provide professional, creative, accessible, and high-quality services. To fulfill that role, Student Affairs Department will seek to create an environment that is caring and positive for students; practice and champion cultural sensitivity and inclusiveness; provide coordinated services that are student focused and technologically up to date; and respond positively to change. Our vision is to eliminate barriers and create opportunities that enable all students to experience success. Our actions are guided by these values:
the well-being of all students innovation in problem solving the positive affirmation of student achievement professionalism and ethical behavior cooperative and collaborative efforts that include enthusiasm, respect, and hu mor
To accomplish our mission, Student Affairs Department has established the following goals:
increase retention and completion rates of students develop capacity to deliver services to all campus sites institute data-driven analysis for planning and decision-making improve attitudes toward and participation in student activities and services increase new student enrollment at PKK, overall and in specified programs
Function
The Student Affairs Department is responsible for managing : a. b. c. d. e. f. g. h.
student admission and registration scholarships residential College discipline and student behaviour registration of students’ vehicle students activities through JPP club alumni student Representatives Committee Committee (JPP)
Contact Personnel
Contact No.
TAJUL ARIFFIN BIN MOHD ARIF (Head of Unit) DH48
Ext : 111
JAYA BIN PARAKKASI Student Affairs Officer (Recruitment and Data) DH44
Ext : 113
Cr NOORHASIMAH BINTI KASSIM Student Affairs Officer (Welfare & Discipline) DH41
Ext : 112
NOORAFEZAH BINTI SAMAD Recruitment Officer DH41
Ext : 114
NORMATA@NORMALATI BINTI AMAT Data Officer F29
Ext : 116
SADJA NORI BIN SUSULAN Executive Officer N27
Ext : 115
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8.2 EXAMINATION UNIT Function Each Polytechnic Ministry of Education is responsible for providing guidance on learning, assessment, control and conduct of the examination. Certificate and Diploma to each student is subject to approval and confirmation of Board of Examination and Certificate / Diploma Polytechnic after students have passed all examinations and meet all the requirements of the course. For a polytechnic, Examination Unit is the unit where responsible for planning, managing and implementing all activities related to student assessment based on the guidelines and evaluation set.
Contact Personnel
Contact No.
JUMRIANI BINTI NONGKANG Head Of The Examination Unit
Ext : 161
RUHAZNAWATI BINTI MD RUDZI Examinations Officer (Records & Certification)
Ext : 162
MOHD RAZALI BIN HASAM Examinations officer (Management & Assessment)
Ext : 163
8.3 LIAISON & INDUSTRIAL TRAINING UNIT Function The Liaison & Industrial Training Unit (UPLI) is responsible for managing students’ industrial training affairs. Students will be assigned to a particular organization during their training period based on their respective fields of study. The placement process is finalised before training commences. Students are constantly advised to maintain a high level of discipline. They should abide by the rules and regulations of both the polytechnic and organization. Organizations are advised to consult the polytechnic immediately if there are any disciplinary problems. The objectives of this programme can be summarized as follows: a. to foster a positive character and traits among students b. to develop better communication skills c. to practise good work ethics and conform to rules and regulations d. to expose students to the working environment e. to produce daily report on the training
Contact Personnel
Contact No.
JALANI BIN SAMIDI (Head of Unit) DH44
Ext : 181
COSWARD JACK Liaison & Industrial Training Officer (Training) DH41
Ext : 181
JASON WILLIAM VITALES Liaison & Industrial Training Officer (Liaison) DH41
Ext : 181
RENNY JOSEPH Head Coordinator JKA
Ext : 233
SABIR BIN MOHD RANI Head Coordinator JKE
Ext : 310
JAHARI BIN YAKOB Head Coordinator JKM
Ext : 408
CHERRYCIA YOAG Head Coordinator JP
Ext : 605
WAN NORLIANA BINTI WAN SULONG Head Coordinator JPH
Ext : 706
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8.4 SPORTS UNIT Function The involvement in extra-curriculum creates opportunities for students to develop their talents and interests. To achieve these require commitment, innovation and creativity from both educators and students. It also includes outdoor activities such as sports, uniform units, clubs and associations. The activities should consist of elements that support the physical, emotional, spiritual and intellectual aspects in line with the National Philosophy of Education.
Contact Personnel
Contact No.
KHAIROL HISAM BIN HAMRAN Youth and Sports Officer S41
Ext : 121/126
WAN NORAZAH BINTI WAN MAHMOOD Treasurer DH41
Ext : 615
MOHD ASWADI BIN MUHAMAD Sports Coordinator Coordinator 1 DH41
Ext : 408
AZLAN BIN ALI Sports Coordinator Coordinator 2 DH42
Ext : 408
NORIDA BINTI MOHAMMAD NOOR Sports Coordinator Coordinator 3 DH32
Ext : 804
WAHADIR BIN HAMDAN Office Assistant N17
Ext : 136
The Sports Unit is responsible for: a. Managing sports activities in and outside PKK b. Planning and ensuring sports activities are carried out accordingly c. Monitoring and keeping record of PKK athletes d. Managing and maintaining the sports facilities. e. Developing individuality in spiritual, physical and intellectual
8.5 LIBRARY UNIT Function
Contact Personnel
Contact No.
The library provides quality and up to date information to everyone in terms of managing and providing access to information resources.
ALI BIN RASHID Librarian S44
Ext : 151
Taking the role as a centre of knowledge, the library acts as a catalyst and assist in the teaching and learning and research in the process of producing creative and innovative semi professional.
MUHAMMAD IZZUDDIN BIN ABDULLAH Library Assistant Officer S27
Ext : 152
The library unit is also an instrument in inculcating the reading culture among PKK and the local communities through an ongoing reading campaign. Among the many objectives of the library unit are: a. To acquire relevant and current information for reference b. To manage a collection of information using a standard system for easy access. c. To provide quality information service and cultivate interest in reading d. To support the organization’s objectives in teaching, learning and research
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8.6 PSYCHOLOGY AND CAREER UNIT Function The Psychology and Career Unit works on implementing the Human Capital Development program based on psychological approaches which include aspects of development, prevention, rehabilitation and intervention. In addition, this unit also provides counseling and professional guidance to ensure semi professional work force is well balanced mentally and physically. The Psychology and Career unit is responsible for:
a. b. c. d. e.
Raising self awareness and surroundings Highlighting ones’ potential Developing multi skills Promoting studies opportunities Promoting career opportunities
Contact Personnel
Contact No.
MARIANI BINTI ALIAS (Head of Unit) Psychology and Career Officer S41
Ext : 136
RASIDAH BINTI RASHID Psychology and Career Officer S41
Ext : 136
YUSMAH BINTI AG.DAMIT Head of PBKJ (JKA)
Ext : 211
NORINAH BINTI GARANGON Head of PBKJ (JKE)
Ext : 320
HATIMI BINTI MUDIN Head of PBKJ (JKM)
Ext : 415
NORZILA BINTI SALIM Head of PBKJ (JP)
Ext : 211
DAYANG NURDIYANA BINTI ABD HAMID Head of PBKJ (JPA)
Ext : 856
SITI NOR ATIKA BINTI SULAIMAN Head of PBKJ (JMSK)
Ext : 802
MOHD RAZHAN ARIFF BIN MOHD ZAIN Head of PBKJ (JH)
Ext : 706
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8.7 RESIDENTIAL COLLEGE The uniquely modern PKK hostel can easily accommodate a total of 2500 students. Students in semester one have the opportunity to enjoy the facilities provided on campus in addition to a comfortable and conducive living environment. Students are placed in the hostel to instill good learning habit, moral values, integration and friendship among students of different race, religio n and culture.
Contact Personnel Ag. Ali Bin Mohd Yusop Penolong Pengurus Asrama N32 Tel : 088-499980, Ext :188 /189/198
Hj Ismail Bin Asis Head Of Warden DH44
Warden Block A 1. 2. 3.
Clara Valdez Irnah Wati Ag Damit Mariani Bt Alias
Warden Block B 1. 2. 3.
Warden Block D 1. 2. 3.
Nurhanum Omar Wan Zara Natasha Noor Herlina Lee Ling Chuen
Aslamaitulakma Mohamad Suhana Rubin Norliza Sazalli
1. 2. 3.
Yusmah Ag Damit Emilia Enggoh Norinah Garangon
1. 2. 3. 4.
Warden Block H Mohd Shukri Abd Hamid Mohd Samsul Bin Atan Ali B Rashid Mohd Nazrulazlan Warden Block K
Warden Block J 1.
Nurul Hamimah Jamaludin
1. 2. 3.
Warden Block M Edward John Mohd Saifuddin Ahmad Salimi Salih
Roshadah Abu Bakar Azreen Khamis Azizan Mohamed
1. 2. 3.
1. 2. 3. 4.
Sierah Ginsos Mona Sahafiri Abjad Razia Malini Mohamad
Warden Block F 1. 2.
Khairunnisa Islami Ambotola Kristy Wong
Warden Block I 1. 2.
1. 2. 3. 4.
Warden Block N Mazlan Maming Radat Tasim Noor Mohd Kamal B Mat Masran B Kuba
Hasdiana @ Salamah Haris Nur-Akmal Madi Zarina Melan (Supervisor N17)
Warden Block C
Warden Block E
Warden Block G 1. 2. 3.
1. 2. 3.
1. 2. 3. 4.
Hj Ismail Asis Khairul Afizal Sultan Ali
Warden Block L Zulkifli B Abd Aziz Asmadi B Lamit Zulfadli B Mohd Nor Dzulkeflee B Ismail Warden Block O Jalleh B Bokium Abdul Razak B Mohd Daim Raja Ahmad Raja Husin Dalmon B Peter Manganji
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9.0
PROFESSIONAL / SKILLS CERTIFICATION
This profesional certificate is a finishing programme offered to the selected students to give them an added value for the programme.
Professional Certificate
Related Course Code & Course AW101 Occupational Safety And Health 1
Green Card (CIDB) AT401 Industrial Training
AutoDesk Certification - AUTOCAD 2D DAN 3D Essential Skills Development Training
JJ206 Computer Aided Design 1
Problem Solving Skills Using ‘Six Sigma’ Methodology
Graduates Career Development Enhancement Program
AS101 Soft Skills Career Clinic Program Persediaan Ke Alam Pekerjaan
Career Clinic Program Profiling Test
Descriptions - This programme is offered to all Engineering Students before Industrial Training. - To improve and expose students with safety and health awareness in industrial training. - To ensure that students have a basic knowledge about the safety and health in working environment. - This programme is specifically offered to Final Year Students in Mechanical and Mechatronic Engineering. - To enhance student’s skills and technique in 2D and 3D product designs. - This programme is specifically offered to Final Year Students in Engineering. - To strengthen the generic skills of the students as to enable them to be competitive and enhance their career opportunities in the job market. - To strengthen the students human capital potential as part of their skills to increase employment and technical expertise among graduates. - This programme is specifically offered to Final Year Students. - To involving information routing activity direct career to student. - To give exercised as platform to graduate and potential graduate to build career through various employability programme. - This programme is specifically offered to 1st Year Students (Semester 1 or Semester 2). - To identify student tendency on career that liked according to personality suitability respectively.
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10.0 POLYTECHNIC SITE MAP
Legend Civil Engineering Deptartment Mechanical Engineering Department Commerce Department (Ground Floor) Electrical Engineering Department Hospitality Department (Ground floor) Cafeteria Islamic Center
Residential College Staff Quarters Ground floor Student Affairs Department Level 2 General Studies Department Level 3 Mathematics, Science & Computer Dept. Administration Office
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11.0 EDITORIAL COMMITTEES Chairman and Adviser : Hjh Norehan Bt Md Shariff Lead Editor : Zan Aizuwan Bin Zainal Abidin Assistant Editor : Aslamaitulakma Binti Mohamad Editor Members and Reporting Committees / Boards 1. 2. 3. 4. 5. 6. 7. 8.
Raja Nadia Binti Raja Ahmad Muhamad Noor Bin Abu Hassan Rudiansah B. Nonche Naisah Binti Ujin Jaya Bin Parakkasi Rose Sharijan Frey Khan Roshadah Bt Abu Bakar Shalizan Bin Kadir
Writers Committees 1. Norkamal Bin Jaafar 2. Muhamad Noor Bin Abu Hassan 3. Aliudin Bin Aziz
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11.0 EDITORIAL COMMITTEES Chairman and Adviser : Hjh Norehan Bt Md Shariff Lead Editor : Zan Aizuwan Bin Zainal Abidin Assistant Editor : Aslamaitulakma Binti Mohamad Editor Members and Reporting Committees / Boards 1. 2. 3. 4. 5. 6. 7. 8.
Raja Nadia Binti Raja Ahmad Muhamad Noor Bin Abu Hassan Rudiansah B. Nonche Naisah Binti Ujin Jaya Bin Parakkasi Rose Sharijan Frey Khan Roshadah Bt Abu Bakar Shalizan Bin Kadir
Writers Committees 1. 2. 3. 4.
Norkamal Bin Jaafar Muhamad Noor Bin Abu Hassan Aliudin Bin Aziz Johnny Yakin Sinit @ Yahya Bin Yakin
Others Members 1. 2. 3. 4. 5. 6. 7. 8.
Tajul Ariffin Bin Mohd Arif Noorhayani Binti Yahya Khalil Bin Khalid Azilah Binti Abd Rahim Teh Phaik Sim Annie Gedion Norni Binti Abdul Wahab Zaliha Binti Mat Isa
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