This document provides an overview of the Engineering Ethics course taught by Ir Muhammad Arkam Bin Che Munaaim at UniMAP. The course objectives are to expose engineering students to basic concepts in engineering ethics and the responsibilities of professional engineers. It covers topics like the engineering ethics code, professional ethics, engineers' responsibilities, and engineers in globalization. Teaching resources include lecture notes, the Registration of Engineers Act 1967, and guidelines from the Board of Engineers Malaysia on the code of professional conduct.
Professionalism and Codes of Ethics Engineering Societies (Malaysia and International)Registration of Engineers with Board of Engineers (BEM) Route to be Professional Engineer Guideline for Code of Professional conductSharing Experience - Invited Speakers
ABSTRACT
The assignment outlines the professional codes of conduct relevant to BEM and adhered by professional engineers who serve to the society considering or exhibiting with legal, safety health, cultural and societal values. A certified professional engineer holds high dignity, ethics, professional, moral values in making decisions at the place of work. The main objective of this assignment is to examine, analyze and relate the ethical theories and the BEM (Board of Engineers Malaysia) Code of Professional Conduct and its guidelines to solve ethical, social, health, safety, legal, and cultural related issues in the practice of engineering in order to safe guard the respect and dignity of the Engineering Profession. Furthermore; in this assignment will learn about the ethical theory which use to reduce the impact inside the industry, as we learned there five elements of the ethics theory will be used to evaluate and analyze the cases study below in chapter two, those elements are Relativism, Utilitarianism, Virtue Ethics, Duty Ethics, and Right Ethics each one of these will be used in the scenarios below. Moreover; in this assignment will explain some codes of the BEM codes of Professional Conduct, this code consists of five elements which will mention in chapter3 each one of these codes divided into various codes to be used as a professional engineer to solve the issues which may face. In addition, will be selecting some of the BEM codes to solve the issue base on the problems which we have in chapter 2, there three case study each case study has different problems, furthermore, the last case study is the scenario which is given in the assignment to be analyzed. As a professional engineer must solve this issue by justify the solution for the case study and make sure there is no impact on the capacity and environment. Furthermore; will be using the drawing line analysis to identify the impact of the problems, as shown in chapter 3 there are a positive impact and negative impact by using this method we can identify if the problems are negative or positive then will solve this issue.
Professionalism and Codes of Ethics Engineering Societies (Malaysia and International)Registration of Engineers with Board of Engineers (BEM) Route to be Professional Engineer Guideline for Code of Professional conductSharing Experience - Invited Speakers
ABSTRACT
The assignment outlines the professional codes of conduct relevant to BEM and adhered by professional engineers who serve to the society considering or exhibiting with legal, safety health, cultural and societal values. A certified professional engineer holds high dignity, ethics, professional, moral values in making decisions at the place of work. The main objective of this assignment is to examine, analyze and relate the ethical theories and the BEM (Board of Engineers Malaysia) Code of Professional Conduct and its guidelines to solve ethical, social, health, safety, legal, and cultural related issues in the practice of engineering in order to safe guard the respect and dignity of the Engineering Profession. Furthermore; in this assignment will learn about the ethical theory which use to reduce the impact inside the industry, as we learned there five elements of the ethics theory will be used to evaluate and analyze the cases study below in chapter two, those elements are Relativism, Utilitarianism, Virtue Ethics, Duty Ethics, and Right Ethics each one of these will be used in the scenarios below. Moreover; in this assignment will explain some codes of the BEM codes of Professional Conduct, this code consists of five elements which will mention in chapter3 each one of these codes divided into various codes to be used as a professional engineer to solve the issues which may face. In addition, will be selecting some of the BEM codes to solve the issue base on the problems which we have in chapter 2, there three case study each case study has different problems, furthermore, the last case study is the scenario which is given in the assignment to be analyzed. As a professional engineer must solve this issue by justify the solution for the case study and make sure there is no impact on the capacity and environment. Furthermore; will be using the drawing line analysis to identify the impact of the problems, as shown in chapter 3 there are a positive impact and negative impact by using this method we can identify if the problems are negative or positive then will solve this issue.
Professionalism and Codes of Ethics Engineering Societies (Malaysia and International)Registration of Engineers with Board of Engineers (BEM) Route to be Professional Engineer Guideline for Code of Professional conductSharing Experience - Invited Speakers
Unit-3 Professional Ethics in EngineeringNandakumar P
About an engineer's responsibility towards safety and risk taken by him/her in critical circumstance.
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Professionalism and Codes of Ethics Engineering Societies (Malaysia and International)Registration of Engineers with Board of Engineers (BEM) Route to be Professional Engineer Guideline for Code of Professional conductSharing Experience - Invited Speakers
Unit-3 Professional Ethics in EngineeringNandakumar P
About an engineer's responsibility towards safety and risk taken by him/her in critical circumstance.
This PPT will give them a basic approach towards engineer's work towards safety for the society.
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Proses menender adalah merupakan aspek yang penting dalam industri binaan kerana melalui cara inilah membolehkan pemilihan kontraktor yang berkelayakan dapat dibuat. Proses menender ini biasanya dilakukan oleh pihak klien sendiri atau Perunding yang dilantik.
1 Ethics and the engineer
2 Chapter introduction: Accuracy and rigour
Acting with care and competence
Staying within your limits
Keeping up to date
Ensuring others are not misled
Being objective
Evaluating risks
3 Chapter introduction: Honesty and integrity
Affecting others
Preventing corruption
Rejecting bribery
Gaining trust
4 Chapter introduction: Respect for life, law and public good
Justifying the work
Minimising and justifying adverse effects
Respecting limited resources
Health and safety
The reputation of engineering
5 Chapter introduction - Responsible leadership: listening and informing
Listening to society
Promoting public awareness
Truth and objectivity
Engineering Ethics
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The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
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4. Engineering Ethics Syllabus
1. Introduction
2. Engineering Ethics Code
3. Profession Ethics
4. Professional Engineers Responsibilities
5. Engineers in globalization
OBJECTIVES
ENGINEERING ETHICS
• Explaining main concept in Engineering Ethics,
• Identify issues and challenges as an engineer
after graduation.
5. Course Synopsis
• Expose to engineering students basic knowledge in
engineering ethics.
• Main and important concepts in engineering ethics
in Malaysia.
• Engineers govern bodies: Institute of Engineers
Malaysia (IEM) and Board of Engineers Malaysia
(BEM)
• Future engineers.
6. Teaching Resources
• Download Notes from Subject Website
– Lecture Notes for Engineering Ethics
– REGISTRATION OF ENGINEERS ACT 1967 (Revised 2007)
– REGISTRATION OF ENGINEERS REGULATIONS 1990 (Revised 2003)
– BEM Guidelines for Code of Professional Conduct (Circular No
3/2005, dated 3 February 2005)
7. What is Engineering ?
• Microelectronic Engineering
Engineering programs at • Electronic Engineering
UniMAP:- • Photonic Engineering
• Computer Engineering
The programmes are offered through 8
• Communication Engineering
schools, namely :-
• Computer Network Engineering
• Mechatronic Engineering
• School of Microelectronic Engineering
• Mechanical Engineering
• School of Computer and Communication
Engineering • Electronic Biomedical Engineering
• School of Mechatronic Engineering • Electrical Systems Engineering
• School of Electrical Systems Engineering • Industrial Electronic Engineering
• School of Manufacturing Engineering • Electrical Energy Engineering
• School of Materials Engineering • Manufacturing Engineering
• School of Bioprocess Engineering • Product Design Engineering
• School of Environmental Engineering • Materials Engineering
• Metallurgical Engineering
At present, there are 21undergraduate • Polymer Engineering
programmes that lead to the degree of B.Eng • Bioprocess Engineering
(Hon.), namely :- • Biosystem Engineering
• Environmental Engineering
• Building Engineering
8. UniMAP Engineers
1. Ability to acquire to apply knowledge of mathematics, science and engineering and in depth
technical competence in engineering discipline.
2. Ability to identify, formulate and solve engineering problems.
3. Ability to design a system, component or process to meet desired needs.
4. Ability to design and conduct experiments as well as to analyze and interpret data.
5. Ability to use techniques, skills and modern engineering tools necessary for engineering
practices.
6. Ability to understand the social, cultural, global and environment responsibilities of a
professional engineer.
7. Ability to understand entrepreneurship, the process of innovation and the need for sustainable
development.
8. Ability to understand professional and ethical responsibilities and commitment to the
community.
9. Ability to function on multi-disciplinary teams.
10. Ability to communicate effectively.
11. Ability to understand of the need for and an ability to engage in life-long learning.
12. Ability to demonstrate understanding of project management and finance principles.
9. BEM GUIDELINES FOR
CODE OF PROFESSIONAL CONDUCT
Five (5) Main SECTIONS for CODE of ETHICS
(27 Sub-Sections)
1. A Registered Engineer shall at all times hold paramount the
safety, health and welfare of the public.
2. A Registered Engineer shall undertake assignments only if he is
qualified by education & experience in the specific technical fields
in which he is involved.
3. A Registered Engineer shall issue public statements only in an
objective and truthful manner.
4. A Registered Engineer shall act for each employer or clients as
faithful agent or trustee.
5. A Registered Engineer shall conduct himself honourably,
responsibly, ethically and lawfully so as to enhance the
honour, reputation and usefulness of the profession.
10. Engineering ?
Engineering?
Engineering is the branch of science and technology concerned with the
design, building and use of engines, machines and structures (Oxford
Compact English )
Engineering encompasses science and art, mathematics and creativity,
models and approximations. (John Hopkins University)
11. Engineering - the Accreditation Board for
Engineering and Technology’s (ABET) definition
• identifies engineering as, ―the profession in
which knowledge of the mathematical and
natural sciences gained by
study, experience, and practice is applied with
judgement to develop ways to
utilize, economically, the materials and forces of
nature for the benefit of mankind.‖
13. What is Engineering
- the simplified definition
• is a discipline concerning…
“ the creative application of scientific knowledge to
analyse, design, construct and operate the products
and services of societal needs;
with full cognizance of the environment, sustainable
development and foremost the safety, health and
welfare to human life.“
• … concerning ethics.
14. Today’s Professional Engineers
• Today’s professional engineers
demonstrate a personal and professional
commitment to society, to their profession,
and to the environment.
• ENGINEERING COUNCIL UK
15. Teras Profesionalisme Jurutera
UniMAP
Integriti
Satu kualiti dan ciri positif yang wujud
secara keseluruhan pada individu dan
organisasi. Ciri dan kualiti integriti
mengandungi unsur kewujudan secara
bersepadu serta keseluruhan pada diri
individu ataupun organisasi.
16. Pengertian Integriti
• Integriti bermaksud keutuhan
• Integriti juga bermaksud berpegang teguh
kepada prinsip kejujuran serta mempunyai
prinsip moral yang tinggi
• Keseluruhan pembawaan kita dari segi
peribadi, tuturkata dan sopan santun
17. Integrity
• Provides access to the opportunity for
superior performance and competitive
advantage at both the individual, group
and organizational level,
• Empowers (give strength and confidence
to) the three virtue (high behaviour
standard) phenomena of morality, ethics
and legality.
18. Integrity
• A quality of excellence that is manifested
in a holistic and integral manner in
individuals and organizations. Integrity is
based on ethics and noble values and
their concrete manifestation in their daily
lives.
• (NIP page 22)
19. Ethics
• A set of moral values and principles which
form the standards guiding the code of
conduct of individuals, organizations and
professions.
• (NIP page 21)
20. Definition of Ethics
• Ethics deals with what we believe to be
good or bad and with the moral obligations
that these beliefs imply.
• Ethics involves the rules for deciding right
and wrong, and the code of conduct that is
based on our decisions.
("Developing Ethical Leaders Through Action", 1990)
21. What is ETHICS ?
• Ethics is the moral governing what is right and wrong conduct.
• Moral is the principles of good and bad behaviour.
• Our understanding
• Behaviour is the way in which someone behaves.
• Conduct is the manner in which a person behaves.
• Concise Oxford English Dictionary (10th Edition)
• Ethics is the principles of good and bad
behaviour governing what is right and wrong
conduct.
22. ―Personal Ethics‖
• is individual morality usually implies a set
of internally held values;
• focus on what are held to be intrinsic or
universal values - truth, honesty, or other
measure of goodness;
• may guide our personal beliefs and
actions.
23. ―Professional Ethics"
• is usually connected to a shared
understanding of proper conduct
guidelines among a group of people
associated by means of their profession;
• allows diverse, multidisciplinary, and
multicultural teams to work in unison
toward common goals.
24. Professional vs. Personal
Ethics
Professional Personal
Prof Pers Ethics
Ethics
Personal and professional ethics are different from, but
not exclusive of, each other.
Overlap between professional and
personal ethics.
Professional ethics more restrictive than
Personal ethics.
25. Why do Engineers need to
know about Ethics?
• With knowledge & skills, engineers have
the capability to do services to the public.
• With this capability, engineers have a
tremendous responsibility to
clients, individuals and society.
• Ethics help engineers to guide their
decisions to ensure they act responsibly.
26. Basic Ethical Concepts
• Ethical considerations are an integral part
of making engineering decisions.
• The professional obligations of engineers
go beyond fulfilling a contract with a
client or customer.
• Codes of ethics can provide guidance in
the decision-making process.
27. Basic Ethical Concepts ...
• Ethical obligations do not stop at any
country’s border; they are global.
• Wherever engineers practice, they
should hold paramount the health, safety,
and welfare of the public.
• How an engineer fulfills those obligations
may depend on the social and economic
context of engineering practice.
28. ―Engineering Ethics‖
• means professional ethics for engineers.
• implies a shared understanding of proper
conduct guidelines among members of the
engineering profession.
• guided by code of ethics or code of
professional conduct.
29.
30. Code of Ethics
• Express the rights, duties, and obligations of the
members of the profession.
• Provides framework for arriving at good ethical
choices.
• May not be comprehensive, but all inclusive.
• Who has them?
– Professional Societies, Corporations
– Government & Academic Institutions
– Others
31. Code of Ethics
• Codes of ethics are written by specific groups of
people for specific groups of people, each group
having its own purpose for existence and its own
means of accomplishing its purpose.
• Codes of ethics are to be reflections of the
morally permissible standards of conduct which
members of a group make binding upon
themselves.
32. Code of Ethics
• Your code of ethics defines your responsibilities
to society and the environment, your employer
or client, and your fellow engineers.
• Governments - federal, state, and local - impose
added responsibilities on engineers through
administrative rules and regulations, and civil
and criminal codes.
33. PROFESSIONAL INTEGRITY
―Interaction Rules‖
Increasing severity of consequences
Courtesy/Etiquette Morals/Ethics Codes of Ethics/Conduct Acts/Laws
Indicate dedication to professional behavior
Recognition of professional responsibilities
Create ethical environment
Guide in specific circumstances
34. INTEGRITY
THE PHENOMENA OF MORALITY, ETHICS AND LEGALITY
• Integrity overlaps among the phenomena of morality,
ethics and legality.
• Integrity is thus not about good or bad, or right or wrong,
or what should or should not be.
• Integrity provides powerful access to increased
performance for individuals, groups, or organizations.
• Morality, ethics and legality exist in a realm of virtues
(high behaviour standard).
• Morality, ethics and legality are about good and bad,
right and wrong, or what should or should not be.
36. THE STRUCTURE OF ENGINEERING
ORGANIZATIONS IN MALAYSIA
• BEM
The Board of Engineers Malaysia
Lembaga Jurutera Malaysia (LJM)
http://www.bem.org.my/
• IEM
The Institution of Engineers Malaysia
Institusi Jurutera Malaysia (IJM)
http://www.iem.org.my/
37. The Institution of Engineers
Malaysia, IEM
• IEM is a society established to promote and advance the Science
and Profession of Engineering in any or all its disciplines and to
facilitate the exchange of information and ideas related to
Engineering.
• It is a professional learned society serving more than 20,000
members in Malaysia, overseas and the communities in, which they
work. It was formed in 1959. The Institution is a qualifying body for
professional engineers in Malaysia.
• The Corporate member of the Institution can apply to the Board of
Engineers, Malaysia (which is a registration body) for
registration as a Professional Engineer, which will entitle him to set
up practice.
• Membership Grades: Student, Associate, Affiliate, Incorporated,
Graduate, Member, Fellow.
38. REGISTRATION OF ENGINEERS ACT
1967 (Revised – 2007)
An Act to provide for the registration of Engineers and for
purposes connected therewith.
• Enacted in 1967 as Act No. 66 of 1967
• Revised up to: 2007
41. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• Conduct of Registered Engineer.
– 23. Every registered Engineer shall at all times uphold the
dignity, high standing and reputation of his profession.
• Responsibility to employer, clients or profession.
– 24. A registered Engineer in his responsibility to his employer,
client or the profession shall have full regard to the public
interest.
• Discharge of duties.
– 25. (1) A registered Engineer shall discharge his duties to his
employer or client as the case may be with complete fidelity.
– (2) Except with the permission of his employer, a registered
Engineer shall not accept any remuneration for services
rendered other than from his employer.
42. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• Reputation etc. of a Registered Engineer not to be
injured.
– 26. A registered Engineer shall not maliciously injure or attempt
to maliciously injure whether directly or indirectly, the
professional reputation, prospects or business of another
registered Engineer.
• Canvassing and advertising prohibited.
– 27. A registered Engineer shall not —
• (a) canvass or solicit professional employment;
• (b) offer to make by way of commission or any other payment
for the introduction of his professional employment;
43. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• (c) except as permitted by the Board, advertise in any manner
or form in connection with his profession; or
• (d) provide professional engineering services to any
person, unless the scope of such services are clearly defined in
a written agreement between both parties.
• A registered Engineer in an Engineering consultancy
practice not to practise with any person whose
registration has been cancelled.
– 28. A registered Engineer in an Engineering consultancy practice
shall not practise engineering with any person whose registration
has been cancelled.
44. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• Restrictions on making payments or placing contracts.
– 29. A registered Engineer in an Engineering consultancy practice
shall not be a medium of payment made on his client's behalf
unless he is so requested by his client nor shall he, in connection
with work on which he is employed, place contracts or orders
except with the authority of and on behalf of his client.
• A registered Engineer not to intervene or to take over the
work of another.
– 31. A registered Engineer shall not directly or indirectly -
• (a) supplant or attempt to supplant another registered Engineer;
• (b) intervene or attempt to intervene in or in connection with
engineering work of any kind which to his knowledge has already
been entrusted to another registered Engineer; or
45. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• (c) take over any work of that other registered Engineer acting
for the same client unless he has -
• (i) obtained the consent of that other registered Engineer; or
• (ii) been formally notified by the client that the services of that
other registered Engineer have been terminated in
accordance with the provisions of any contract for
professional engineering services entered into between that
other registered Engineer and the client, provided always that
in the case of dispute over non-payment of fees or quantum
of any outstanding fees under the contract, the client may
request the Board to be the stakeholder.
46. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• Restrictions on being a director, member or shareholder
of contracting and manufacturing company, etc.
– 32. (1) Except with the prior approval of the Board, a registered
Engineer in an Engineering Consultancy Practice shall not be a
director or executive of or substantial shareholder in or agent for
any contracting or manufacturing company or firm or business
related to building or engineering.
– (2) If such approval is given, such registered Engineer shall not
undertake any contract work wherein he is engaged to provide
professional engineering services in such project unless it is in
respect of a "design and build" project.
47. CODE OF PROFESSIONAL CONDUCT
REGISTRATION OF ENGINEERS REGULATIONS 1990
• Disclosure of interest.
– 33. Every registered Engineer while acting in his professional
capacity shall disclose in writing to his client of the fact if he is a
director or member of or substantial shareholder in or agent for
any contracting or manufacturing company or firm or business or
has any financial interest in any such company or firm or
business, with which he deals on behalf of his client.
• Guidelines
for Code of Professional Conduct
49. BOARD OF ENGINEERS (BEM)
• Establishment of Board of Engineers.
• 3(1) For the purposes of this Act there is hereby
established a board to be called "Board of
Engineers", which shall be a body corporate with
perpetual succession and a common seal and
which may sue and be sued.
• 4(1) The functions of the Board of Engineers
Malaysia (BEM) – Registration & Regulation of
Engineers.
50. Functions of the Board
- on Ethics -
• For the purposes of this Act there is hereby
established a board to be called "Board of
Engineers", Malaysia (BEM). The functions of
the Board shall be among others:
– to hear and determine disputes relating to
professional conduct or ethics of registered
Engineers;
– to determine and regulate the conduct and
ethics of the engineering profession;
51. REGISTRATION OF ENGINEERS
• Section 5. (1) The Board shall keep and maintain a
Register which shall be in five Parts, that is to say -
(a) Part B - which shall contain the names, addresses and other
particulars of Graduate Engineers;
(b) Part A - which shall contain the names, addresses and other
particulars of Professional Engineers;
(c) Part C - which shall contain the names, addresses and other
particulars of Temporary Engineers;
(e) Part E - which shall contain the names, addresses and other
particulars of Accredited Checkers.
(d) Part D – which shall contain the names, addresses and other
particulars of Engineering consultancy practices;
52. ―Registered Engineer"
means a Graduate Engineer, Professional
Engineer, Temporary Engineer or
Accredited Checker.
• registered with the Board under Subsections
10(1); 10(2); and Sections 10A; 10B;
respectively.
53. “Graduate Engineer" means a person
registered under subsection 10(1);
• 10(1) (a) Subject to this Act, a person who holds –
(i) the qualifications required for Graduate Membership of the
Institution of Engineers (Malaysia) and which are recognised by
the Board; or
(ii) any qualification in engineering which is recognised by the
Board,
shall be entitled on application to be registered as a
Graduate Engineer.
(b) Subject to this Act, a person who is registered as a
Graduate Engineer under paragraph (a) shall be required to
obtain such practical experience as may be prescribed by the
Board in order to be entitled to apply for registration as a
Professional Engineer under subsection 10(2).
54. "Professional Engineer" means an Engineer
registered under subsection 10(2);
• 10(2) Subject to this Act, the following persons shall be
entitled on application to be registered as Professional
Engineers:
(i) any person who -
(a) is registered as a Graduate Engineer and has obtained the
practical experience as prescribed under paragraph 10(1)(b);
(b) has passed a professional assessment examination conducted
by the Board, or is a Corporate Member of the Institution of
Engineers (Malaysia); and
(c) has complied with all the requirements of the Board;
55. "Temporary Engineer" means a person
registered under section 10A;
• 10A (2) A foreign engineer may be considered for
registration as a Temporary Engineer if he satisfies the
Board that -
(a) he possesses the necessary qualification which is recognised
for the practice of engineering as a professional engineer in the
country where he normally practises; and
(b) he possesses the necessary expertise and his physical
presence is required in Malaysia for not less than one hundred
and eighty days in one calendar year or he is a resident
representative of the foreign component of a joint-venture.
56. "Accredited Checker" means a person
registered under Section 10B;
• 10B (1) The Board may register a person as an
Accredited Checker if –
(a) he is a Professional Engineer registered in the relevant branch
of engineering approved by the Board,
(b) he has at least 10 years relevant practical experience in the
design and construction of buildings as defined in the
Street, Drainage and Building Act 1974 [Act 133]; and
(c) he satisfies the Board that by virtue of his ability, standing in the
profession, special knowledge or practical experience, he is
qualified to be registered under this Act.
57. "Engineering Consultancy
Practice"
means a sole proprietorship, partnership or
body corporate, providing professional
engineering services.
• registered with the Board under Sections 7A or
7B (including architectural consultancy and/or
quantity surveying services);
58. ―Professional Engineering
Services"
means engineering services and advice in
connection with any feasibility
study, planning, survey, design, constructi
on, commissioning, operation, maintenanc
e and management of engineering works
or projects,
and includes any other engineering services
approved by the Board;
59. Restriction on employment of unregistered
person to provide professional engineering
services.
• Section 24A.
• (1) No person shall employ a person, sole
proprietorship, partnership or body corporate,
other than a registered Engineer or an
Engineering consultancy practice, to perform
professional engineering services.
60. Only Professional Engineer and Engineering
consultancy practice may submit
plans, drawings.
• 8. (1) Except as otherwise provided under any
other written law, no person or body, other than
a Professional Engineer who is residing and
practising in Malaysia or an Engineering
consultancy practice providing professional
engineering services in Malaysia, shall be
entitled to submit plans, engineering
surveys, drawings, schemes, proposals, reports,
designs or studies to any person or authority in
Malaysia.
61. STRUCTURE OF ENGINEERING
PROFESSION IN MALAYSIA
ENGINEERING PRACTICE
• GOVERNED BY THE REGISTRATION OF ENGINEERS
ACT 1967 (Revised 2007)
no person is allowed to practice unless he is a
professional engineer
professional engineer may use “Ir” before his name or
“PEng” after his name
graduate engineer is required to register before taking up
employment as an engineer
62. STRUCTURE OF ENGINEERING
PROFESSION IN MALAYSIA
CATEGORIES OF ENGINEER
• GRADUATE ENGINEER
those who has successfully completed an
accredited engineering program
• PROFESSIONAL ENGINEER
a graduate engineer who has obtained the
prescribed practical experience, passed the
Professional Assessment Examination, and
satisfied all other requirements of BEM
63. STRUCTURE OF ENGINEERING
PROFESSION IN MALAYSIA
CATEGORIES OF ENGINEER - cont.
• TEMPORARY ENGINEER
a foreign engineer who has satisfied all
requirement of the BEM
• ACCREDITED CHECKER
a Professional Engineer who has min 10 years of
relevant experience and has satisfied all
requirements of the BEM
64. THE 12 GENERIC ATTRIBUTES OF A
GRADUATE ENGINEER
Graduates from accredited program should have the following attributes:
1. Ability to acquire to apply knowledge of mathematics,
science and engineering and in depth technical
competence in engineering discipline.
2. Ability to identify, formulate and solve engineering
problems.
3. Ability to design a system, component or process to meet
desired needs.
4. Ability to design and conduct experiments as well as to
analyze and interpret data.
65. THE 12 GENERIC ATTRIBUTES OF A
GRADUATE ENGINEER
1. Ability to use techniques, skills and modern engineering tools
necessary for engineering practices.
2. Ability to understand the social, cultural, global and environment
responsibilities of a professional engineer.
7. Ability to understand entrepreneurship, the process of innovation and
the need for sustainable development.
8. Ability to understand professional and ethical responsibilities and
commitment to the community.
9. Ability to function on multi-disciplinary teams.
10. Ability to communicate effectively.
11. Ability to understand of the need for and an ability to engage in life-
long learning.
12.Ability to demonstrate understanding of project management and
finance principles.
66. How to be a PE?
• Qualifications
• Experience
• Documentation
67. ROUTE TO PROFESSIONAL ENGINEER
STATUS
• Listed below the steps which are necessary to enable Graduate Engineers to be
registered by the Board of Engineers, Malaysia (BEM) as Professional Engineers
(P.Eng).
1) Register with the Board of Engineers upon graduation as it is compulsory under
the Engineers Act 1967 for all practising engineers to register with the Board.
2) All Graduate engineers are required to complete at least THREE (3) years of
relevant work experience after graduation with an accredited engineering degree.
These training stints should as far as possible be completed under the guidance
of a P.Eng who is in the same discipline as the Graduate engineer.
• After registration with the Board, the engineers could approach towards their
objectives of obtaining P.Eng either on their own or through the IEM.
• Once the candidates complete their training (either on their own or through the IEM),
the next step for them is to sit for the Professional Interview conducted by IEM or
BEM.
• Once they pass this Professional Interview (which consists of oral questions and
essay writing), they are then eligible to apply to the BEM to be registered as P.Eng
and could be admitted as Corporate Members of IEM.
68. The practical experience that a registered Graduate Engineer is
required to obtain under Section 10 (I)(b) of the Act in order to be
entitled to apply for registration as a Professional Engineer for a period
of not less than THREE (3) years
a) General Training which should link the conceptual analytical abilities developed during
the degree course with its wide application in industry and give sound base for
professional development, for a period of not less than TWO (2) years of which up to
twelve months of relevant, accredited recognised industrial training during the
undergraduate course may be credited.
b) Professional Career Development Training, which will provide exposure to skills
awareness, management, responsibility, teamwork, logical approach etc. for a period
of not less than TWO years.
c) Satisfactory Attendance in the following course conducted by BEM or institution
approved by BEM.
(i) Code of Ethics 12 hrs
(ii) Occupational Safety and Health at work, relevant bylaws / regulation 12 hrs
(iii) Engineering Management Practice 12 hrs
(iv) Topics related to branch of engineering 24 hrs
(d) Completion of not less than 30 units of professional development which includes
attendance at talks, seminars, meetings and community services.
69. Professional Assessment Examination
http://www.bem.org.my/v3/app_PEM.html
1. PAE will consist of professional interview, followed by essay writing.
2. In the professional interview, the practical experience of the candidate will be
assessed by the Examiners both on time and quality basis.
3. The Examiners shall test the candidate during the interview on the following aspects:
1. Understanding of the application of engineering principles to the solution of
problems arising from the investigation, planning, design, construction, operation
or maintenance of engineering works; or on the subject of his research; and
2. The ability to communicate.
4. The candidate is required to write two essays, one each from section A and section
B. Section A is for an essay related to the candidate's training and experience as
stated in his report. Essay for section B will be on the code of ethics.
5. The candidate will be required to choose one out of two questions from section A.
The candidate is also required to answer a question from two alternative questions
selected by the examiners on code of professional conduct (Section B).
6. 1 1/2 hours will be allowed for each written paper.
7. The essays are intended primarily to test the candidate's ability to marshal his
knowledge and thoughts and to express them in words in a clear and concise
manner.
72. Core Issues and Challenges in
Engineering Ethics
• The importance of honesty in engineering, the various forms of
dishonesty, and how a conflict of interest can compromise an
engineer’s judgment.
• Issues of risk in engineering such as how risk should be defined and
how much risk is acceptable.
• Engineer-manager conflicts within the context of a company or
organization, the tensions that can result from the engineer-manager
relationship and how these conflicts might be resolved.
• Some impediments to responsible action to be considered. To
explore and apply these challenges in the context of contemporary
issues.
• Their impact on society and the country - government agencies, law
enforcement, public behaviour, social maturity, political parties, etc.
73. Globalization
• Globalization is a term that is used to
describe the increasing trend towards
internationally integrated markets and
global interconnectedness, making
national boundaries less important in
terms of
political, cultural, technological, financial, e
nvironmental, and national security issues.
– http://www.marquette.edu/servicelearning/conference/example_pap.pdf
74. Effects of Globalization
• ―The results of globalization are changing
the way we live our lives on a personal
basis and they are changing the
institutions which we collectively use to
give form and predictability to our
economic, social and political
relationships‖
– (Langhorne 2001, The Coming of Globalization – It’s Evolution and Contemporary
Consequences, p55).
75. Challenges of Globalization
• defining global engineering ethics,
• developing procedures for the international
licensing of engineers, and
• developing international codes and
standards of practice.
• international accreditation and recognition
of engineering programs.
76. Sustainable Development
• ―Development that meets the needs of the
present without compromising the ability of
future generations to meet their own
needs.‖
»Conserving natural resources and
protecting environmental quality.
77. • In 1987, the United Nations released the Brundtland Report, which
included what is now one of the most widely recognised definitions:
• "Sustainable development is development that meets the needs of
the present without compromising the ability of future generations to
meet their own needs." It contains within it two key concepts:
• the concept of 'needs', in particular the essential needs of the
world's poor, to which overriding priority should be given; and
• the idea of limitations imposed by the state of technology and social
organization on the environment's ability to meet present and future
needs
78. Sustainable Development
Definition & Principles
• ―Sustainable Development …….
is the challenge of meeting human needs for natural
resources, industrial products, energy, food,
transportation, shelter, and effective waste
management
while conserving and protecting environmental quality
and the natural resource base essential for future
development.‖
• National Society of Professional Engineers
79.
80.
81. Environmental Problems?
We run more and more earth’s natural
resources for economy caused:
Shrinking forest, expanding deserts, eroding soils,
deteriorating the agricultural lands, lower
atmosphere is warming, melting glaciers, increasing
sea levels, more destructive storms, failing water
tables, disappearing of sea corals, drying rivers,
fisheries are collapsing, extinction of many species.
82.
83.
84.
85. ENVIRONMENTAL PROBLEMS
Environmental Problems: Cause?
Major causes are:
Population growth
Wasteful and unsustainable resource use
Poverty
Exclusion of environmental cost of resource use
Attempts to manage nature with insufficient knowledge
91. ENVIRONMENTAL PROBLEMS
Sustainability:
Our lives and economies depend on energy from
the sun (sun capita) and on natural resources
(natural capita) provided by the earth.
Living sustainably means living off the earth’s
natural income without depleting or degrading
the natural capital that supplies it.
100. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Depend Heavily on Oil
Oil-The lifeblood of today’s economics may be unaffordable
sometime during this century.
Geologist project that known and projected global reserves of
conventional oil will be 80% depleted between sometime 2050 and
2100, depending on consumption rate. Natural gas: 60 yrs, Coal:
200yrs (World Energy Council, 2004)
The challenge for this century is to sharply reduce the waste of oil
and other resources and to find array of substitutes for oil and other
fossil fuels.
101. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Depend Heavily on Oil-Petroleum
Products
Petroleum products are useful materials derived from
crude oil (petroleum) as it is processed in oil refineries
Largest: Energy carriers: various grades of fuel oil and
gasoline, Jet fuel, diesel fuel, heating oil. Heavier :
Asphalt, tar, parrafin wax, lubricating and other heavy
oils.
Chemicals: Plastics, sulphur, Hydrogen and carbon.
102. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
Conventional Oil
Advantages Disadvantages
Ample supply for 42-93 years Need to find substitute within
Low cost 50 years
High net energy yield Large government subsidies
Easily transport within and Environmental cost not
between countries included in market price
Low land use Artificially low price
Technology is well developed encourage wastages
Efficient distribution system Can cause pollution
103. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
Energy Resources
Non Renewable Renewable
Fossil fuel Direct Sun
Nuclear Wind
Coal Biomass
Natural gas Flowing water
104. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Save Money and Energy in Industry
By introducing co-generation system or combined heat and power
(CHP) system. Especially for manufacturing that involve heating
process where the heat generated is feed back to re-generate
electrical for independent use.
Equipments that being used in the system can be replaced by ‘low
loss energy efficient equipment such as motors, lightings and air
conditioner.
Recycling waste materials from manufacturing also can be a
intelligent steps for money saving activities.
105. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Save Money and Energy in
Transportation
Use high efficient engine that perform well with minimal petrol used.
Use hybrid car
Use electric car (Plug in hybrid electric vehicle)
Energy efficient diesel car, biodiesel can be an alternative fuel.
Next Generation: Fuel Cell (Hydrogen to produce electricity) 2012.
106. EAT 446 ENVIRONMENT AND SOCIETY Degree In Environmental Engineering UniMAP
ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Design Buildings That Save Energy and Money
Designing energy efficient building
Green architecture, based on energy efficient approach
Building certification, Green Building Index, LEEDS, BREEAM, etc.
Natural lights, natural ventilation, orientation, materials selection.
Research:
60% of electrical energy goes to Air Conditioning
15% of electrical energy goes to Lighting (During Daytime)
(Energy Commission, 2002 office building of 1000sm)
107.
108. LEED, or Leadership in Energy and
Environmental Design, is an internationally-
recognized green building certification
system. Developed by the U.S. Green Building
Council (USGBC) in March 2000, LEED
provides building owners and operators with a
framework for identifying and implementing
practical and measurable green building
design, construction, operations and
maintenance solutions.
109. • LEED promotes sustainable building and development
practices through a suite of rating systems that recognize
projects that implement strategies for better environmental and
health performance.
• LEED is flexible enough to apply to all building types –
commercial as well as residential. It works throughout the
building lifecycle – design and construction, operations and
maintenance, tenant fitout, and significant retrofit. And LEED for
Neighborhood Development extends the benefits of LEED
beyond the building footprint into the neighborhood it serves.
• LEED also makes business sense, benefiting commercial
building owners as well as tenants.
110.
111.
112.
113.
114.
115.
116.
117.
118.
119. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Save Energy and Money in
Existing Buildings
Retrofit to save energy
Insulate and plug leaks
Use energy efficient window
Stop other heating or cooling loses
Heat house more efficiently
Heat water more efficiently
Use energy efficient appliances for lighting, etc.
120. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Use Renewable Energy and Plant
Nonrenewable Energy
Sun, moving water, wind, biomass
136. ENVIRONMENTAL PROBLEMS-MALAYSIA
What Can We Do?
We Can Cool Buildings Naturally
We can Use Sunlight to Produce Heat
We Can Heat Water With Solar Energy
We Can Use Solar Cells to Produce Electricity
We Can Convert Plant and Plant Waste to Liquid
Biofuels.
137.
138. Professional Obligations
• Engineers are encouraged to adhere to
the principles of sustainable development
in order to protect the environment for
future generations.
139. Notes on the Code of Professional Conduct,
Board of Engineers, Malaysia
• The Engineering Professional plays a paramount role in a
developing country such as ours. The work of engineers shapes
the physical environment of society, and has a profound effect on
the economic growth and development of the nation.
• It is therefore essential that the members of the engineering
profession should always perform their duties to the highest
standards of professional integrity. They should maintain the
dignity of the profession, and not be led astray by commercial
motives into performing actions which are not for the good of the
profession as a whole, or for the good of society in general.
• The Code of Professional Conduct describes the professional
behaviour of Engineers.
• The Institution of Engineers, Malaysia.