Engineering is a challenging, creative and exciting career. An important
aspect of engineering is its variety. Engineers are involved in planning and
designing, manufacturing, constructing and managing the technological
activities of our society. They interpret our technological needs, devise
solutions and carry them out. But engineers are not only responsible for
planning and building engineering works, they must also participate in the
social decisions involving environmental concerns, financial arrangements for
these works, government priorities and community needs. The work engineers do
impacts directly on the quality of everyone's day-to-day life, and contributes
markedly to the future prosperity of our community.
Whatever their field of engineering, engineers are concerned with applying
scientific knowledge and social skills. To apply scientific knowledge engineers
must have a strong basis in science; but they must also work in a real world of
economic forces and community priorities. Engineering is creative work based on
science applied with art and skill, with social and economic dimensions
added.
Engineers, like other professionals, are morally and legally responsible for
using their skill and judgment for the public good, and it is the task of
engineering faculties such as Monash to educate and train engineers so that
they can accept these responsibilities. When engineering students graduate they
are required by the profession to work for a period of three years or more
under the direction of qualified engineers. Only then can they too be
recognised as fully qualified professional engineers and, if they wish,
practise in their own name as consulting engineers, or participate responsibly
in engineering works as members of public or private organisations.
The Faculty of Engineering offers course programs in chemical engineering,
civil engineering, electrical and computer systems engineering, environmental
engineering, industrial engineering, interdisciplinary engineering, materials
engineering, mechatronics engineering and mechanical engineering. A range of
double degree programs, combining engineering studies with arts, business and
commerce, industrial design, law and science are also available. These programs
are offered on one or more of the three Monash campuses at Caulfield, Clayton
and Gippsland in Victoria. Some programs are also available at the Monash
Malaysian campus.
Students entering the faculty on any campus take a common first-year course,
and may, subject to merit and some quota restrictions, change campuses after
first year to pursue discipline-oriented programs in the stream of engineering
of their choice. In addition to the usual full-time or part-time study modes,
Gippsland students also have the advantage of being able to take their degree
by distance education, which provides opportunities for students who are not
able to attend the campus on a regular basis.
Each of the streams of engineering offered by the faculty provides opportunity
for a variety of more specialised career destinations. A chemical engineer may
specialise in chemical plant design, or mineral processing, or environmental
protection. A civil engineer may specialise in construction and management, or
hydrology, or structural design. An electrical engineer may focus on computer
systems, or telecommunications, or electrical power; a materials engineer on
metallurgy or ceramics; an industrial engineer on systems management or
creating better conditions for workers; and a mechanical engineer on
aeronautics or industrial processes. In all cases the engineers are planning,
designing and manufacturing, and building quite different things, and yet they
are all dependent on the same common basis of scientific principles and
engineering fundamentals. It is this common basis that allows new graduates to
be flexible in their career choices, and practising engineers to develop new
expertise as the forefront of engineering knowledge advances.
It is worthwhile remembering that half the goods or processes we routinely use
now were not invented twenty years ago. So in twenty years, or even sooner,
most of what engineers will be designing and producing will be things which we
cannot anticipate, using materials which do not presently exist. A faster rate
of change, particularly in technology, means that more situations in practice
will not have been encountered before. New technologies and newly developing
disciplines will give rise to new industries.
The doubling period of engineering knowledge is estimated to be a decade or
less, depending on the field. It is therefore increasingly likely that
engineers will not remain within a single field during their professional
career. There is also convergence between different fields of engineering, and
some observers predict that the existing distinctions between traditional
disciplines of engineering will not survive long into the next century.
Engineering input is now required in totally new fields like the information
industries, and space research.
The wide application of computers to perform routine tasks in engineering is
freeing engineers to spend more time on other aspects of the design task like
synthesis, creativity and assessment of multiple options. The progressive
application of knowledge-based systems will, while reducing the more mundane
tasks of an engineer, provide a much greater challenge in terms of personal
judgment.
We are now in an era in which engineers play a more dominant role than ever
before. Requirements for both the quantity and quality of engineers are
increasing. In terms of professional activity, greater portions of an
engineer's time are spent on safety, environmental and sustainable resource
issues, on technical research and testing, on management, on controlling and
optimising operations, on developing computer software and on infrastructure
planning. Less time is spent on routine design.
The Australian engineering profession now has much closer links with the
countries on the Pacific rim, including Korea, China, Taiwan, the Philippines,
Vietnam, Thailand, Singapore, Malaysia and Indonesia. Contacts with these
countries range from joint ventures into massive projects, to the interchange
of small high-tech devices and products.
You may think in reading this that engineers are supermen or women: only some
of them are. But there is no doubt that the good engineers were good students,
and the good students are those who from the beginning are competent in the
basic subjects of mathematics and science, and have an ability to communicate
their ideas.
If you enjoy using mathematics, and you find your science courses interesting
and challenging; if you like to solve problems and create new, useful things;
and you want to join in the excitement of helping to shape the future; you will
like engineering, and enjoy the courses offered by the faculty. When you
graduate you will remember your studies in engineering as a time of steady and
concentrated effort, intellectual stimulation and creative achievement with a
group of fine people.
M L Brisk
Dean, Faculty of Engineering