Monash University - Engineering: Undergraduate Course Guide 2014 by Corporate Profile

Engineering Undergraduate Courses 2014

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www.eng.monash.edu

Contents ENGINEERING: MAKE THINGS HAPPEN

THE MONASH DIFFERENCE

SCHOlARSHIPS

THE TOTAl EXPERIENCE

GRADUATE OPPORTUNITIES

PROGRAM CHOICES

DOUBlE DEGREES

ENGINEERING FIElDS

HOW TO APPlY

ADMISSIONS, ATARS AND PREREqUISITES

INTERNATIONAl ADMISSIONS

Where will engineering take you? Training dragons and walking with dinosaurs AvON PERERA Bachelor of Engineering in the field of Mechanical Engineering and Bachelor of Design (Industrial Design) Monash Engineering graduate Avon Perera has entered a new world of training dragons and walking with dinosaurs. Avon completed a double degree in mechanical engineering and industrial design at Monash University and now utilises his skills every day at The Creature Technology Company (CTC). ‘CTC was formed in 2006 to create full-scale naturalistic dinosaurs for Walking with Dinosaurs – the Arena Spectacular. Since then we have created a second touring show of

Walking with Dinosaurs as well as an ongoing project based on bringing King Kong to the stage. Our latest project was an adaptation of Dreamworks’ “How to Train Your Dragon” movie into an arena spectacular’, says Avon. Avon’s work is inspired by Theo Jansen – a remarkable artist who creates kinetic sculptures – who once said, ‘the walls between art and engineering exist only in our minds’.

Engineering: Make things happen Engineer literally means ‘to make things happen’. Engineers are inventors; converting science knowledge into successful innovation, and producing some of the greatest advances in humankind’s wellbeing.

Engineers solve problems, figure out how things work and create solutions. Engineers work on many different projects and find themselves in a variety of environments. Engineers are key to the development of society and solving the challenges the world currently faces such as climate change, natural resource depletion, food shortages and increased demands on energy.

Why should I become an engineer? Engineers possess a rare combination of skills and qualities that place them in demand, in many different industries. An engineer’s career is diverse, interesting and can be anywhere in the world. According to MyCareer.com.au engineering graduates are amongst the highest earners, only behind dentistry, optometry and medicine. As a qualified engineer you will also be equipped to work in many areas outside of engineering, such as management, banking and consulting. Many engineers go on to become CEOs of major corporations. Almost 20 per cent

“scientists study the world as it is; engineers create the world that has never been.” THEODORE vON KÁRMÁN

of CEOs of ASX100 companies are engineers. Problem solving and planning skills, combined with a focus on the future and continuous improvement, make engineers competent business leaders.

Is engineering for me? A career in engineering will suit you if you: ■

are curious about how things work

■

like and are good at maths and science

■

enjoy challenges

■

are goal oriented

■

like working with lots of different people, in multidisciplinary teams

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like analysing and solving problems

■

have an interest in improving the quality of human life

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Engineers are creative and imaginative, yet analytical and technical – with an excellent sense of judgement. As an engineer you will apply science and mathematics in a practical way to develop new technologies and improve existing ones.

The Monash Difference An engineering degree from Monash university is well-known in industry for its ideal integration of practical, hands-on training with theoretical learning. it is this balanced approach that helps transform our graduates into adaptable, innovative and highly

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

valued professionals.

More choice, greater flexibility

Single degrees without the common first year

Not everyone is sure which engineering field they want to study or exactly where they want to be in the future.

Monash also offers a number of exciting engineering degrees that do not include the common first year. These include aerospace, civil and environmental, computer systems, environmental, mechatronics and mining engineering.

That is why we created an engineering degree that gives you more choice and flexibility than anywhere else. The common first year

Complete your engineering qualification at Monash in just four years, or study for five years and graduate with a double degree.*

The Bachelor of Engineering (Honours) has a common first year allowing you to better understand engineering and its fields before deciding which discipline to pursue from level two. You can choose from chemical, civil, electrical and computer systems, materials or mechanical engineering. See page 10 for details.

Double degrees Many double degrees are available to broaden your career options when you graduate. Whether it is architectural design, arts, biomedical science, commerce, industrial design, law, pharmaceutical science or science, Monash allows you to study engineering while pursuing other passions and interests. See page 11 for details. * See admissions table beginning on page 30 for details on course duration.

Monash Engineering research had the highest possible ranking in the 2012 Excellence in research for Australia assessments, its research being described as “well above world standards”.

Monash University is a member of the Group of Eight – a select group of Australia’s leading universities. Group of Eight universities are consistently the first choice for high-achieving students.

The finest facilities Engineering is a hands-on discipline where learning goes beyond the classroom, so it is important that you choose a university with the very best facilities to support your learning. Monash University hosts unique, world-class engineering facilities including: ■

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Computer laboratory facilities, available 24/7, including printing, multimedia, notebook and wireless areas. A science and technology library and resource centre designed specifically for engineering studies. The largest wind tunnel in the Southern Hemisphere, used to test the aerodynamics of vehicles (including the Monash Motorsport car) airplanes, UAVs, trucks, trains, buildings, and yachts. The tunnel has even been used for aerodynamic testing by elite athletes such as Tour de France winner Cadel Evans. The Monash Centre for Electron Microscopy, which houses one of the world’s most powerful electron microscopes.

■

Communications and power laboratories equipped with commercial systems and best-in-class instrumentation. Optical microscopy imaging laboratories. The $175 million New Horizons Centre. Research in the centre is structured around research and development themes selected for their national and international importance: future manufacturing, biological engineering, renewable energy, and modelling and simulation. The facility brings together scientists and engineers from Monash University and CSIRO.

Excellence in research Monash University undertakes innovative, multidisciplinary research addressing national and international priorities. Monash Engineering has a highly reputable research profile with extensive links to both industry and the research community worldwide. Engineering research at Monash University is “well above world standard”, according to the 2012 Excellence in Research for Australia (ERA) assessment report released by the Australian Research Council. The ERA rankings evaluate the research strengths of Australian universities by discipline, following a rigorous assessment process by internationally respected experts.

Professional recognition Monash engineering degrees are recognised by these professional engineering bodies: ■

Engineers Australia

■

The Institution of Chemical Engineers (Bachelor of Engineering (Honours) in the field of Chemical Engineering only)

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Engineering Accreditation Council Malaysia (Malaysian engineering degrees only)

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Australia is a signatory to the Washington Accord, which enables Monash engineering graduates to work in any country in the world which is also a signatory to the Accord, without the need to re-qualify. For more information about the Washington Accord and a list of signatories visit www.washingtonaccord.org

Industry funded awards and prizes Strong links with industry enable the Faculty of Engineering to offer its students a wide range of prizes and scholarships. More than 50 awards and prizes are presented annually. See back cover for a list of our industry sponsors.

Monash Engineering is the only university in Victoria to have the highest possible ranking in 2012 and in the inaugural assessment in 2010.

Images from top to bottom: 1 Artist’s impression of New Horizons Centre 2 The Titan: One of the most powerful microscopes in the world 3 Cadel Evans, Tour de France Champion trained in the Monash wind tunnel 4 Hargrave-Andrew Library

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

The Group of Eight

Engineers possess a rare combination of skills and qualities that place them in demand all over the world in many different industries. they are creative and imaginative, yet analytical and technical â&#x20AC;&#x201C; with an excellent sense of judgement.

Scholarships

At Monash university, we celebrate academic excellence and support students who are disadvantaged. We offer a range of scholarships to help ensure that money and circumstances are not barriers for students to access the excellent education that Monash Engineering offers.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Please visit www.monash.edu.au/study/scholarships for a full list of scholarships, bursaries and awards available and for full details.

SCHOLARSHIP

TOTAL VALUE

NUMBER AVAILABLE

Engineering Excellence Award

$24,000

Up to 50

$5000 one-off payment

Up to 50

$5000 one-off payment

Up to 50

Full tuition fees paid for the Diploma of Engineering studies at Monash College, plus $6000 per 48 credit points of study for the minimum number of credit points required to complete the Bachelor of Engineering (Honours)

Variable

Awarded to the highest achieving eligible year 12 students entering an engineering course at Monash in Australia. Recipients must receive an ATAR or equivalent of at least 98.00. Includes an invitation to participate in the prestigious Leadership in a Technological Environment program (see page 5 for details).

Engineering International Undergraduate Award Awarded to the highest achieving eligible international students studying Year 12 or IB in Australia who receive an ATAR or equivalent of at least 90.00.

Women in Engineering Scholarship Awarded to the highest achieving eligible year 12 female students commencing an undergraduate engineering program offered by the Faculty of Engineering.

Engineering Indigenous Scholarship for Equity Offered in conjunction with Monash College this scholarship is awarded to the highest achieving year 11 indigenous students commencing a Diploma of Engineering at Monash College, and articulating to a Bachelor of Engineering degree.

More than an engineering course â&#x20AC;&#x201C; The total experience outstanding academic performance is not always first on an employerâ&#x20AC;&#x2122;s must-have list. rate interpersonal and communication skills, critical reasoning and problem solving, together with passion, as top of their list.

Massachusetts institute of technology (Mit) has described the Monash leadership in a technological Environment program as one of four best practice programs of its type, in the world.

At Monash University, we open your eyes to a world outside the classroom. As a Monash engineering graduate, you walk away with more than a piece of paper. You walk away prepared for leadership, success and, most importantly, life. Following are just a few examples of the activities you can get involved in while at Monash Engineering.

leadership in a Technological Environment program The Leadership in a Technological Environment program is designed to transform you into a future engineering leader. It provides a rare opportunity for you to network, acquire life skills and learn about leadership outside the formal classroom environment.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Employers want graduates who are highly skilled, well-rounded individuals. Many employers

The total experience

Industry partners are regularly invited to deliver workshops on the engineering profession. These sessions will allow you to network with industry professionals and discover the diversity offered by a career in engineering. All Engineering Excellence Award holders are invited to participate in this program. Other students can apply to participate in the program from second year.

Real research experience As an undergraduate engineering student, you will have the opportunity to undertake research training while studying. There are two programs on offer:

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

1. The Undergraduate Research Opportunities Program (UROP) allows you to experience engineering research environments and train alongside inspiring research leaders.

2. The Summer Research Program offers 12 weeks of paid research work during your university break. Undergraduate students who are in level 3 or above, have a minimum of 48 credit points remaining in their degree and have a weighted average mark greater than 80%, are invited to apply to undertake a research project over a 12 week period. In both cases, you will work closely with academic staff and get involved in a broad range of fascinating research projects.

vacation employment In order to graduate students need to undertake 12 weeks of practical vacation employment in approved engineering work during one or more of the long university breaks. This experience often leads to exciting employment opportunities.

Departments have a list of appropriate industries and firms you can approach, and the faculty can assist you with preparing for the selection process via the Work Ready Program.

Work Ready Program This valuable program equips you with job application skills to secure employment. A Monash Engineering degree plus the Work Ready Program will give you the edge in a competitive employment market.

Monash Motorsport Become involved in Monash Motorsport where students conceive, design and build a formula style racing car. The mission of the Monash Motorsport team is to create the most competitive and well designed car possible â&#x20AC;&#x201C; as judged by the Society of Automotive Engineers (SAE). As a Monash Motorsport team member, you will build strong engineering links with local industry and the community and have access to facilities at Monash, including the wind tunnel for aerodynamic testing. Monash Motorsport are the current Australasian champions and are ranked 2nd in the world out of over 500 teams. Visit www.monashmotorsport.com for more information.

Engineers Without Borders (EWB) EWB is an international volunteer organisation that aims to improve the knowledge and physical resources of people in need around the world. EWB works with developing communities to achieve environmentally sustainable, socially responsible and economically viable solutions to engineering problems, with an emphasis on education.

Student Societies Clubs and societies provide students with the chance to get more out of their university experience. Visit www.monashclubs.org for information on clubs and societies available. If you are looking for an active and social university life then check out MESS. MESS is a student-run, not-forprofit organisation that will enrich your Monash experience through engaging and fun, social and academic experiences. MESS produces an annual Engineering Careers Guide â&#x20AC;&#x201C; a useful resource to help you secure employment when you graduate. Visit www.mess.org.au for more information.

Diploma of languages The Faculty of Engineering in conjunction with the Faculty of Arts, allows you to undertake a Diploma of Languages from the second year of your studies. Students undertaking a Diploma of Languages often take part in

study abroad or exchange in their third year to consolidate their language skills.

Study abroad and exchange Spending time overseas on exchange as part of your engineering degree will expose you to new ways of learning and living. You will also build an international network, develop independence and enjoy a crosscultural experience. Monash has exchange agreements with more than 100 universities in 25 different countries, which enables you to have an international experience while your overseas studies are credited towards your degree. Most students who participate in an approved exchange or study abroad program are eligible to receive a travel grant from Monash. Engineering students also have the opportunity to go on exchange for 6 months at Monash Universityâ&#x20AC;&#x2122;s Sunway campus in Malaysia and will receive a $3500 travel grant as well as having their accommodation and return airfares covered. Students from Sunway campus can also apply to spend one semester at Clayton. Visit www.monash.edu/ study-abroad/outbound for more information.

At Monash university, we open your eyes to a world outside the classroom. Monash Engineering is well-known in industry for its ideal integration of practical, hands-on training with theoretical learning.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

The Monash University chapter is involved in a wide range of projects with an increasing membership every year.

Graduate Opportunities

Average Australian Engineering Salary $122,278* Engineering graduates are amongst the highest earners, only behind dentistry, optometry and medicine.** Career options available for engineers are many and varied. Please see the entries

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

for each engineering field, beginning on page 13, for information on career opportunities.

Engineer shortage As the engineering workforce ages and the world is shifting to an innovation economy, the demand for engineers increases. A report by Engineers Australia has highlighted the serious nature of Australia’s engineering skills shortage. The report shows that the increases in the number of Australian trained engineers graduating each year are still not enough to solve Australia’s engineering skills shortage.

“This has a range of workforce flow-on effects and has led to delays across a number of engineering and infrastructure projects”, said Stephen Durkin, CEO of Engineers Australia. What does this mean for engineers? More jobs, more pay. The shortage is not limited to Australia. According to the Times Higher Education it is estimated that UK engineering companies will have 2.74 million job opportunities between 2010–2020. 87,000 of these per year will require a degree qualification –

The UK only produces 46,000 engineering graduates each year. In the USA demand for engineers has grown dramatically. According to data and analytics company, Identified, the USA is increasing its intake of foreign trained engineers to try to bridge the gap – and an engineer’s salary in the USA is on average 23 per cent higher than the average salaries nationwide. President Obama has said, “we have made incredible progress in education… but we still don’t have enough engineers”.

An engineering degree from Monash university gives you a competitive edge. As a Monash engineering graduate, you can be a highly sought-after industry professional – when you first enter the workforce and throughout your career.

According to the Association of Professional Engineers, scientists and Managers Australia the average starting salary for graduate engineers in Melbourne is $56,755.

Consider a research degree

Faculty guaranteed scholarships

When you have finished your undergraduate degree you may wish to consider furthering your studies by completing a research degree. A research degree will allow you to pursue a particular area of interest you have developed. You will get to work on an original idea, have your ideas published, solve a real world problem and have the opportunity to work under the supervision of some of Australiaâ&#x20AC;&#x2122;s leading researchers. A research degree will provide you with a challenge and further develop your transferable skills such as communication, data analysis, problem solving and time management.

Designed for high-achieving final year students, faculty guaranteed scholarships provide an ideal pathway into research studies. If, at the end of your course, you have achieved an H1 honours weighted average, we guarantee you a scholarship to undertake a higher degree by research (masters or PhD). The scholarship value is equivalent to the Australian Postgraduate Award rate. Conditions apply. *** * MyCareer.com.au. Based on job listings inclusive of wage from the last 90 days (as at 31 January 2013). Figures may incorporate total package. ** MyCareer.com.au. *** Consult the faculty office for further details.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

the faculty of Engineering is committed to providing an environment in which the brightest students and scholars can together pursue their educational and research goals, at the highest international standard, and contribute to the prosperity of Australia and the world.

Program Choices You have a choice of programs:

1 1

Bachelor of Engineering (Honours) (Common first year)

Common First Year

In the common first year you will learn to: ■

apply developing maths and science knowledge to real life problems

■

understand the interaction between engineering and society

■

develop important skills such as communication, report writing and teamwork.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

More time to plan your future

When you study the Bachelor of Engineering (Honours) at Monash University, you select an engineering discipline at the end of your first year. This gives you time to learn more about the engineering profession and its different fields before deciding what to pursue. The common first year lays a foundation in the basic sciences of mathematics, physics and chemistry and introduces each discipline available to you for further study.

Single Degrees without the Common First Year

After your first year Depending on your academic performance in your common first year, and quotas, you can pursue any of the disciplines in the table below from your second year of study:

BACHELOR Of ENgINEERINg dISCIPLINE

CLAyTON

MALAySIA

Chemical



Civil

   

 

Electrical and Computer Systems Materials Mechanical Mechatronics*

 

* The Bachelor of Mechatronics Engineering (Honours) is available as a separate entry degree at Clayton campus.

3 2

Double Degrees

Single Degrees without the Common First Year

Monash Engineering offers a selection of degrees that do not have a common first year. Options available are aerospace engineering, civil and environmental engineering, computer systems engineering, environmental engineering, mechatronics engineering and mining engineering. See the engineering field section beginning on page 13 for more information on each area.

the common first year allows you to choose an engineering discipline at the end of your first year, giving you time to decide what area to pursue.

Double Degrees open more doors

study wide and study deep with a double degree.

Enrol in two degrees at the same time in two completely different areas More and more organisations seek engineering graduates with expertise in other disciplines. They are continually impressed by the breadth of knowledge and insight evident in double degree graduates from Monash University. A double degree allows you to pursue a career in either area, or to take up one of the many opportunities emerging at the interface of disciplines.

An engineering double degree offers diversity, more career choices and flexibility.

Architectural design This double degree is designed for students who are interested in civil engineering and in developing an understanding of how buildings function. The architectural design component enables students to express their building design in an innovative way. The civil engineering component enables students to understand the load path and design safety issues associated with the architectural design.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Double Degrees

studying a double degree broadens your career options and allows you to follow more than one passion. it also gives you a more rounded education.

Arts

Commerce

law

Combining engineering and arts will give you complementary skills in technology and communication.

Do you dream of making it big in the business world? If so, engineering with commerce is a powerful combination.

An engineering and law degree bridges the gap between technological and legal issues.

 

Materials Mechanical Mechatronics

Engineering is concerned with the application of science. However, many engineers are fascinated by scientific investigation and eager to enhance their understanding of the pure sciences. You may choose to combine engineering with food science or technology, or explore the fundamentals of the cosmos through astrophysics. Alternatively, you may be interested in the most fascinating machine of all, the human body.

 Double degree combinations  Double degree combinations available with the engineering

  

    



SCIENCE

PHARMACEUTICAL SCIENCE

common first year

  



Civil and Environmental

Environmental

Science

LAW



  

Chemical

Electrical and Computer Systems

There is an increasing demand for pharmaceutical scientists with the expertise to take products from the design and formulation stage through to manufacturing.

The following table shows double degree combinations and the engineering fields they are available with.

Aerospace

Civil

Pharmaceutical science

INdUSTRIAL dESIgN

ENgINEERINg fIELd

As an engineering and law graduate, you are eligible to practise as a solicitor in a law firm. Alternatively, you may choose to work as part of the legal team in a large engineering, manufacturing or technology firm.

COMMERCE

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Double degree combinations

If you have a natural eye for design and can appreciate the aesthetics of consumer products, then consider this unique double degree. Monash University is well-known for its expertise in both mechanical engineering and industrial design.

This double degree combination produces engineers who are sensitive to the legal, corporate and political implications of technology and how it is applied.

BUSINESS ANd COMMERCE

Advances in biological sciences and demand for technological solutions are creating new opportunities for engineers. In the coming years engineering will be transformed as it parallels and fuses with developments in biomedical science.

Industrial design

BIOMEdICAL SCIENCE

If you are eager to explore a career in biological/biomedical engineering, consider a double degree in engineering and biomedical science.

ARTS

Biomedical science

Many CEOs of major corporations are engineers. People with sound business skills and a strong technological background are consistently in demand across a myriad of industries and organisations.

ARCHITECTURAL dESIgN

For example, languages and engineering is a valuable combination if you are interested in an international career.

Combining chemical engineering with pharmaceutical science will allow you to pursue a career in this exciting and expanding field.

    

  



 

    

Engineering fields 01 Aerospace Engineering 02 Architectural Design and Engineering 03 Biomedical Science and Engineering 04 Chemical Engineering 05 Civil Engineering 06 Civil and Environmental Engineering 07 Computer Systems Engineering 08 Electrical and Computer Systems Engineering 09 Environmental Engineering 10 Industrial Design and Engineering 11 Materials Engineering 12 Mechanical Engineering 13 Mechatronics Engineering 14 Mining Engineering 15 Pharmaceutical Science and Engineering

DURATION 4 years

CAMPUS Clayton

DOUBlE DEGREES* Arts, Commerce, Law, Science

SCAN FOR

FUll TITlE Bachelor of Aerospace Engineering (Honours)

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Aerospace Engineering

02 03 04 05 06 07 08 09 10 11 12 13 14 15

What is aerospace engineering? Aerospace engineering covers the design, development and maintenance of flight vehicles. It is inherently multidisciplinary, encompassing aerodynamics, aerostructures, avionics, propulsion, flight control and material science. Modern flight vehicles are highly complex systems and aerospace engineering demands a high level of analytical and mathematical ability. It is a profession that is constantly at the forefront of innovation as it seeks to improve operating efficiencies whilst reducing environmental impact.

Aerospace engineering at Monash

aerospace computational mechanics and design are studied. lEvEl 3 Includes aerodynamics, aircraft structures, dynamics, propulsion, control and computer-aided design. A project based design unit that incorporates teamwork and management principles is also included. lEvEl 4 The final year of the program includes a full year research project enabling you to work independently on an area of interest. In addition, a professional practice unit and two advanced technical units are undertaken. You also choose from advanced technical electives.

lEvEl 1

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

The first year of the aerospace engineering program lays a foundation in the basic sciences and includes introductory aerospace engineering units.

lEvEl 2 The core disciplines of thermodynamics and heat transfer, aircraft structures,

KYlE CARNEY Bachelor of Aerospace Engineering and Bachelor of Science RAAF

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/3275.html

Your career in aerospace engineering Aerospace engineering reaches beyond traditional aerospace applications. You might work on automobiles, in energy production and conservation, with lightweight materials or on new manufacturing techniques. When you graduate you are likely to work in one of these main areas: 1. Design and manufacturing 2. Research and development 3. Airworthiness operations You might join a large aerospace company or a general manufacturer that contracts to the aerospace industry. You might work at an airline or a government aerospace laboratory or research centre. Formula One and other racing car teams also employ aerospace engineers. Aerospace engineering might also lead you towards other professions such as management consulting or finance. * See admissions table beginning on page 30 for details on course duration.

I have a passion for aircraft so always knew I wanted to study aerospace engineering, but I have always had a strong interest in science too. Monashâ&#x20AC;&#x2122;s excellent double degree program enabled me to follow both interests. Read more > eng.monash.edu.au/prospective/profiles/profile/kyle-carney

DURATION 5 years*

CAMPUS Clayton and Caulfield

DOUBlE DEGREES Combining Civil Engineering with Architectural Design

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Civil Engineering and Bachelor of Architectural Design

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Architectural Design and Engineering

01 02 03 04

The building industry needs engineering professionals with strong architectural knowledge. Architectural designers take building to a whole new level, combining a thorough understanding of how buildings function, with creative approaches to construction. Architectural design and engineering is an exploration of solutions to a wide variety of engineering and social problems, like looking at sustainable ways to build, understanding safety issues associated with the design of buildings or bridges, or renovating existing structures to work more efficiently. Architectural designers work closely with architects to develop solutions to clients’ projects that integrate form and appearance with practical functionality.

Architectural design and engineering at Monash STAGE 1 Students complete foundation units in architectural design including introduction to art and design health and safety, introduction to architectural theory, and architecture communications. Students also complete the civil engineering unit, engineering structures.

STAGE 2 Foundation engineering units are covered in addition to civil engineering units, including mechanics of solids, design of concrete and masonry structures, and design of steel and timber structures. STAGE 3 Architectural design studios are undertaken in addition to a contemporary architecture unit and civil engineering units. STAGE 4 Core units extend studies in engineering design and analysis, with increasingly complex tasks and a focus on tackling real engineering problems. STAGE 5 Students complete further architectural design studios, architectural design units, and choose from civil engineering electives. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/4617.html

Your career in architectural design and engineering

06 07

As an architectural designer you could provide leadership in the design and construction of the built environment, collaborating with architects, engineers, builders and other design professionals. You will not be eligible for architecture registration, but you will be a qualified engineer. Many Australian architectural designers work for practices both here and overseas. Many Australian firms regularly undertake international projects too. You could be employed in either an architectural or engineering office working on: ■

design of structures, buildings and bridges

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urban or commercial developments

■

green or sustainable development projects

■

planning projects

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renovation of existing projects to provide more sustainable, energy efficient solutions

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project or construction management.

* See admissions table beginning on page 30 for details on course duration.

08 09 10 11 12 13 14

ANDREW WEGMAN

Bachelor of Engineering in the field of Civil Engineering and Bachelor of Architectural Design Grocon

The thing I enjoy the most about my role is the exposure I get to the different facets of the industry. Working in project management means I am interacting with everyone from architects and engineers to contractors and planners. Read more > eng.monash.edu.au/prospective/ profiles/profile/andrew-wegman

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What is architectural design and engineering?

DURATION 5 years*

CAMPUS Clayton

DOUBlE DEGREES Combining Engineering with Biomedical Science

SCAN FOR

FUll TITlE Bachelor of Biomedical Science and Bachelor of Engineering (Honours)

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Biomedical Science and Engineering

04 05 06 07 08 09 10 11 12 13 14 15

What is biomedical science and engineering?

Biomedical science and engineering at Monash

Biomedical science and engineering ties together the engineering, medical and biological sciences. The key objective is to benefit humans, animal and plant life.

This double degree introduces you to a range of new interdisciplinary subjects covering modern biomedical sciences, human biology and public health, and develops a strong grounding in one of five disciplines of engineering. Disciplines to choose from are chemical, civil, electrical and computer systems, materials or mechanical engineering.

Biomedical science and engineering encompasses traditional engineering disciplines, as well as cross-disciplinary areas such as; biomedical engineering, biochemical engineering, biomimetics and bio-inspired engineering, environmental engineering, and food engineering.

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/3879.html

AlISON SlATER Bachelor of Biomedical Science and Bachelor of Engineering in the field of Chemical Engineering Process Engineer, Rio Tinto

Your career in biomedical science and engineering Many technologies fail to make an impact in medicine either because the engineers do not understand the underlying biology and the constraints imposed by the medical industry, or because medical professionals do not understand the full capability of new technologies. Engineers with a background in the biomedical sciences have the skills to bridge these boundaries. Some career areas include: ■

pharmaceutical and biotechnology engineering

■

medical diagnostics and development

■

medical device design and development

■

medical imaging and image processing

■

medical IT, computer systems and telecommunications

■

genetic and proteomic engineering in disease understanding and prevention

■

biomaterials and tissue regeneration and research

■

bioprocessing and production of food and medicines

■

human biomechanics and prosthetic research

* See admissions table beginning on page 30 for details on course duration.

My role is to monitor key parameters in a section of the alumina plant and then recommend a course of action to make improvements. It’s great because I get exposure to completely different aspects of the plant operation and I learn new things every day. Read more > eng.monash.edu.au/prospective/profiles/profile/alison-slater

DURATION 4 years

CAMPUS Clayton or Malaysia

DOUBlE DEGREES* (Clayton campus only) Arts, Biomedical Science, Commerce, Law, Pharmaceutical Science, Science

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Chemical Engineering

MORE INFO

01 02 03

Chemical Engineering

04 05 06

Chemical engineering applies the physical sciences and/or life sciences to the processing of products. Chemical engineers invent, develop and design processes that convert raw materials into useful products – with minimal environmental impact. Chemical engineers are also involved with pollution control, protection of the environment and with energy conservation and conversion. As populations grow and resources and energy reserves decline, the demand for chemical engineers increases.

Chemical engineering at Monash lEvEl 1 Students complete the Bachelor of Engineering (Honours) common first year – see page 10. lEvEl 2 Students undertake core units in fluid dynamics, heat and mass transfer, thermodynamics, chemical engineering principles and advanced engineering mathematics.

lEvEl 3 AND 4 From third year, in addition to core units, students choose electives from biotechnology, sustainable processing or nanotechnology. A selection of high-achieving students are given the opportunity to undertake integrated industrial training in their final year. Our students have the benefit of expert industry lecturers teaching several units in 3rd and 4th year, in addition to frequent industry guest lecturers in all year levels. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/0032.html

Your career in chemical engineering As a chemical engineer, you can work in a range of industries including: ■

biotechnology

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chemical

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energy

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environmental

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food

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minerals

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nanotechnology

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oil

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paper

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petrochemical

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pharmaceutical.

In these industries you would most likely work in one of the following roles: Process engineer – you solve production problems, develop new products, reduce energy usage and the carbon footprint, increase plant safety and efficiency and oversee plant upgrades and expansions. You work with a team of people in operations, maintenance, and business strategy. Design engineer – you work in a consultancy office, designing new plants for clients, as well as extensions to existing plants. You might design a distillation column today, be sizing a heat exchanger tomorrow, work on safety and environmental protections, or work out how to control each unit in the plant to ensure smooth and reliable operation. R&D engineer – you work in a laboratory or a company, and develop new ways to do chemical engineering. You might develop new products or you might work on new catalysts to increase reaction efficiency. * See admissions table beginning on page 30 for details on course duration.

13 14 15

MATTHEW BEll Bachelor of Engineering in the field of Chemical Engineering Offshore Facilities Surveillance Engineer, ExxonMobil

The vacation employment required as part of the Monash degree, along with the industry based learning experience offered in my final year, helped me define where I wanted to go with my engineering degree. I believe this gave me an edge when discussing these aspirations with prospective graduate employers. Read more > eng.monash.edu.au/prospective/ profiles/profile/matthew-bell

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is chemical engineering?

DURATION 4 years

CAMPUS Clayton or Malaysia

DOUBlE DEGREES* (Clayton campus only) Architectural Design, Arts, Biomedical Science, Commerce, Law, Science

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Civil Engineering

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03 04 05

Civil Engineering

06 07 08

What is civil engineering?

Civil engineering is concerned with the design, construction, maintenance and operation of infrastructure for the benefit of society.

10 11 12

Civil engineers design structures including multi-storey buildings, bridges, tunnels, commercial complexes, oil rig platforms, water systems, road and traffic systems and foundation supports.

13 14 15

KARSTEN FORSTERlING Bachelor of Engineering in the field of Civil Engineering

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Structural Engineer, AECOM

Being presented with a task that at first seems insurmountable both in complexity and volume can be challenging. Engineering training allows us to break big ideas up into small tasks, so the challenge becomes workable – then enjoyable. Read more > eng.monash.edu.au/prospective/ profiles/profile/karsten-forsterling

Civil engineering at Monash lEvEl 1 Students complete the Bachelor of Engineering (Honours) common first year – see page 10. lEvEl 2 Through significant project based units students are introduced to basic analysis and design techniques in each of the four civil engineering streams: structural, water, transport, and geomechanical engineering. lEvEl 3 Core units extend studies in engineering analysis and design, with increasingly complex tasks and a focus on tackling real engineering problems. All four streams are again represented, with the addition of management units.

lEvEl 4

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Students undertake a thesis project, civil engineering practice, electives in their chosen stream/s and one elective that can be taken from anywhere in the university.

Manage rivers and develop systems to collect and treat wastewater.

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Develop urban water systems.

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career.

Transport engineers plan the future travel needs of city and country areas. They investigate alternative transport technologies to make existing road and traffic systems safer and more efficient.

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/0032.html

Geomechanics

Civil engineering streams Structures Structural engineers design buildings, bridges, airports, railways, commercial complexes, towers, off-shore platforms and tunnels. They ensure structures are sound under extreme conditions such as wind, waves and earthquakes. Water Water engineers manage water supply and drainage systems for people, agriculture and industry. Typically, a water engineer will: ■

Develop projects to control flood waters.

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Design dams, spillways and pipe networks.

Transport

Geomechanical engineers advise on foundation design, support structures, stability of slopes, tunnel design and construction, and the suitability of materials for infrastructure projects.

Your career in civil engineering Your career prospects as a civil engineer are strong and diverse. When you graduate, you might work in any one of these sectors: ■

private industry

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government

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construction and mining

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marine and resort developments

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property and land development

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consulting firms.

* See admissions table beginning on page 30 for details on course duration.

DURATION 4 years

CAMPUS Gippsland

DOUBlE DEGREES* Business and Commerce

SCAN FOR

FUll TITlE Bachelor of Civil and Environmental Engineering (Honours)

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01 02 03 04 05

Civil and Environmental Engineering

06 07 08

This growing field combines the skills of a civil engineer to design, build and manage infrastructure, with the knowledge of an environmental engineer to create a sustainable future. Civil and environmental engineering creates infrastructure that functions in harmony with the environment. It addresses the interactions between engineered and natural environments. This specialist field of engineering involves the latest in construction engineering, infrastructure engineering and its operation and management, including road and water systems with a focus on the incorporation of physical and environmental contexts. Civil and environmental engineers solve problems in the context of community and environmental needs.

CARA vAN MEGCHElEN Bachelor of Civil and Environmental Engineering Origin Energy

They manage natural resource systems such as forests, land and water, paying attention to urban water sensitive design and reducing rural soil erosion and salinity problems. Civil and environmental engineers are also involved in land use planning and integrating transport aspects to produce sustainable urban and rural developments.

Civil and environmental engineering at Monash

structures, water systems, and environmental modelling. lEvEl 3 AND 4 Studies are extended in environmental science, and civil and environmental engineering design and analysis but with increasingly complex tasks. Students gain exposure to real world problems through field and laboratory experiments and computer modelling. Students also undertake two industry based thesis projects in a chosen area of interest.

lEvEl 1 Includes basic sciences such as mathematics, physics and chemistry, along with engineering units and an introduction to environmental science. lEvEl 2 Students explore basic analysis techniques in the areas of civil and environmental engineering through significant project based units, including geoengineering,

As a student you should get as much hands-on training and experience as possible to ensure you enter your chosen field with a practical understanding of the theoretical concepts you are learning. The Bachelor of Civil and Environmental Engineering presented opportunities to engage in practical activities such as projects in local mines and visits to construction sites, national parks and innovative project trials. Read more > eng.monash.edu.au/prospective/profiles/profile/cara-vanmegchelen

Your career in civil and environmental engineering Demand is rapidly growing for engineering graduates with expertise in planning, designing, managing and operating environmentally sensitive infrastructure and systems. Our increasing population and improved standard of living continue to provide many jobs in these varied sectors: ■

local, state and federal government

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consulting and contracting firms

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research and development

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education organisations.

09 10 11 12 13 14 15

* See admissions table beginning on page 30 for details on course duration.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is civil and environmental engineering?

FUll TITlE Bachelor of Computer Systems Engineering (Honours)

DURATION 4 years

CAMPUS Clayton

SCAN FOR

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05 06 07

Computer Systems Engineering

08 09 10 11 12 13 14 15

What is computer systems engineering? Computer systems engineering is concerned with developing computer technology. Computer systems engineers analyse, design, develop and manufacture all kinds of digital products and systems that include both hardware and software. They also plan, design, commission, monitor, optimise and manage complex computer systems and telecommunications systems. As a computer systems engineer, you will understand all aspects of computing. You will solve problems using the best mix of hardware and software and apply your expertise to a huge range of products and industries.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

You could be involved in large computer systems, desktop computers, high definition televisions as well as embedded computers for mobile phones, computer games, virtual reality systems, smart domestic appliances and medical implants.

Computer systems engineering at Monash lEvEl 1 Students complete units that will give them a good grounding in computer systems engineering

including digital systems, mathematics for engineering and computer science. Students also have the opportunity to study one elective unit. lEvEl 2 Computer systems engineering is studied in greater depth with units including signal processing, electronics and control, electromagnetism and telecommunications. lEvEl 3 Units include wireless and guided EM, engineering design and system engineering and reliability analysis. Students also have the opportunity to study three elective units. lEvEl 4 Students complete a full year thesis project in addition to professional practice and elective units. Students can choose electives from a range of units in computer systems engineering, telecommunications and information technology. They learn about all aspects of computers, from hardware design to software systems, and learn to solve applications problems using the best mix of hardware and software options.

RORY PAlTRIDGE Bachelor of Computer Systems Engineering ABB

Your career in computer systems engineering The career possibilities of a computer systems engineer span a vast range of industries, both locally and internationally. Likely industries include telecommunications, computing, manufacturing, industrial control and the automotive industry. Other major employers of computer systems engineers include the professional services industry, IT, retail, entertainment, health, transportation, banking, medical, travel and financial services.

The thing I enjoy most about my role is travelling around Australia. I like getting to see the parts of Australia that are off the tourist track like the Pilbara, WA gold fields and Gladstone. I also love meeting customers from around the country. It can be both challenging and rewarding. Read more > eng.monash.edu.au/prospective/profiles/profile/rory-paltridge

01 02

DURATION 4 years

CAMPUS Clayton or Malaysia

DOUBlE DEGREES* (Clayton campus only) Arts, Biomedical Science, Commerce, Law, Science

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Electrical and Computer Systems

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03 04 05 06

Electrical and Computer Systems Engineering

07 08 09 10

Electrical and computer systems engineering is an extremely diverse field encompassing biomedical, computer systems, electronics, electrical power engineering, robotics and telecommunications. Electrical and computer systems engineers investigate, plan, design, develop, construct, test, market and maintain a wide range of products and systems. As an electrical and computer systems engineer you might design and develop digital products such as laptops, virtual reality systems or computer games. You might develop medical devices such as prosthetic and cochlear implants. Or maybe you might design and program voice recognition systems with improved human intelligence. This branch of engineering covers many specialist roles: ■

automation and control

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biomedical

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computer systems

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electronics

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power generation and distribution

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robotics

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telecommunications, communications and signal processing.

Electrical and computer systems engineering at Monash lEvEl 1 Students complete the Bachelor of Engineering (Honours) common first year – see page 10. lEvEl 2 Students undertake units including signal processing, electronics and control, electromagnetism and telecommunications. lEvEl 3 Studies are taken to a more professional level with units in systems engineering and reliability analysis, electrical energy systems, optimisation estimation and numerical methods and engineering design. Students also have the opportunity to study elective units. lEvEl 4 Students undertake a full year thesis project, professional practice and elective units. Electives can be chosen from a range of fields including biomedical engineering, computer systems, robotics, power engineering, electronics, electro-magnetics, telecommunications, and control systems. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment,

a taste for working in industry and a head start on your career.

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/0032.html

13 14 15

Your career in electrical and computer systems engineering As an electrical and computer systems engineer you could work locally or internationally in a wide range of industries including: ■

power generation

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industrial and power electronics

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automation systems

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computer programming

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robotics

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health care

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water and energy.

Many Monash graduates work in large public and private telecommunications, manufacturing and electrical power companies. Others work for defence and intelligence organisations. You will also be prepared for careers in other industries such as online ticketing, banking and finance – or any organisation that needs to create, store, encode and transmit data or manage complex systems. * See admissions table beginning on page 30 for details on course duration.

DAvID MOO Consultant

As a project manager, I manage various aspects of renewable energy projects, including design and manufacturing, funding management and quality control. I hope to play an expanded role in increasing the contribution of sustainable energy generation to our energy usage. Read more > eng.monash.edu.au/prospective/ profiles/profile/david-moo

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is electrical and computer systems engineering?

02 03

FUll TITlE Bachelor of Environmental Engineering (Honours)

DURATION 4 years

CAMPUS Clayton

DOUBlE DEGREES* Arts, Commerce, Science

SCAN FOR

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07 08 09

Environmental Engineering

10 11 12

What is environmental engineering?

Few branches of engineering have such a profound impact on our health and quality of life as environmental engineering.

14 15

Environmental engineering involves the implementation and management of solutions and programs that are in harmony with the principles of sustainable development.

MAHIMA KAllA Bachelor of Environmental Engineering

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Environmental Planner, Sinclair Knight Merz (SKM)

Monash Engineering has many opportunities for career development. During my studies, I won an industry scholarship from the consulting firm, Sinclair Knight Merz (SKM). I now work for SKM in a wide variety of state and federal government and industry projects. Projects range from environmental compliance auditing, environmental risk assessments and contaminated land assessments. Read more > eng.monash.edu.au/prospective/ profiles/profile/mahima-kalla

It involves reducing energy and resource use and minimising waste, while providing the community with the development opportunities it needs to grow. Environmental engineering encompasses water and air pollution control, recycling, water supply, waste disposal, land management, transport and the built environment, process engineering and public health issues.

Environmental engineering at Monash lEvEl 1 Level one offers a broad base of science, mathematics, introductory engineering and environmental units to form the basis of a multidisciplinary engineering education. lEvEl 2 Increases the engineering content, a mixture of core engineering units and more environmentally directed units.

Mathematics continues and environmental policy and management is introduced to integrate the content gained from other units. lEvEl 3 Students choose streams from water and land management, environmental process engineering, and transport and the built environment. They are introduced to more environmentally focussed engineering units, along with advanced units that examine environmental impact and management systems, energy resources and the air environment. lEvEl 4

Your career in environmental engineering Environmental problems exist in all countries and industries so your opportunities are broad and far reaching. You might work in air pollution control, water supply, land management, impact assessment, hazardous waste management, energy production, storm water and wastewater management, environmental management systems – and so much more. The list is almost endless. Organisations employing environmental engineers include: ■

engineering consulting firms

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industries that need cleaner production systems

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private and municipal agencies that supply drinking water and treat wastewater

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companies treating and disposing of hazardous waste

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career.

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organisations helping to account for carbon and implementing low carbon solutions

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government agencies monitoring and regulating environmental issues

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/1253.html

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universities that teach and conduct sustainability research

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international agencies that aid developing nations

Provides applications for earlier studies by way of substantial engineering design and project work, complemented by advanced and interdisciplinary elective units from environmental law, economics and policy areas. Students continue their electives streams.

* See admissions table beginning on page 30 for details on course duration.

03 04

DURATION 5 years*

CAMPUS Clayton and Caulfield

DOUBlE DEGREES Combining Mechanical Engineering with Industrial Design

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Mechanical Engineering and Bachelor of Design (Industrial Design)

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05 06 07 08 09

Industrial Design and Engineering

10 11 12

Industrial design and engineering focuses on hi-tech consumer product design. You will design and develop consumer products with a focus on aesthetics, functionality and ergonomics. You could design cars, hi-tech appliances, furniture, tools, industrial equipment, prosthetics or robots. Whatever your speciality, your goal is the same; to make products stand out and deliver a unique brand experience. But your priority will stretch beyond products that look and feel good. It is your understanding of the manufacturing process, materials and marketing that will give you a distinct advantage throughout your career.

Industrial design and engineering at Monash This double degree integrates the creative skills of engineering (inventiveness and project management) with those of industrial design – namely aesthetics, manufacturing technologies and graphics. lEvEl 1 Students complete foundation units in engineering including mathematics for engineering, computing for engineers and engineering dynamics, in addition to three art and design units.

lEvEl 2 Students complete mechanical engineering units in addition to art and design units, including model making and workshop practice and product drawing. lEvEl 3 Mechanical engineering units are taken to a professional level, and include fluid mechanics, thermodynamics and electromechanics. lEvEl 4 Mechanical engineering units including fluid mechanics and solid mechanics are undertaken in addition to critical issues in design.

You could apply your skills to a range of specialist areas such as display design, consumer product design, packaging design and ergonomics.

You will boast a wide range of practical, creative and problem solving skills, which could make you an ideal manager of an innovative and diverse organisation. You will have the opportunity to choose from a vast range of industries including: ■

aerospace

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manufacturing

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transportation

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petrochemical

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robotics

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electronic.

lEvEl 5 Final year students undertake a full year independent project in mechanical engineering in their area of interest. They also complete further units from art and design and mechanical engineering.

Careers in industrial design and engineering

The strength of Monash in industrial design and mechanical engineering leads many graduates to the automotive industry – with several students having won international prizes for motor vehicle design. Other growing service sectors include communications, consulting and entertainment. * See admissions table beginning on page 30 for details on course duration.

AvON PERERA Bachelor of Engineering in the field of Mechanical Engineering and Bachelor of Design (Industrial Design) Design Engineer, The Creature Technology Company (CTC)

Avon says his double degree has allowed him to combine his artistic and technical skills and helped him land his dream job. “The biggest highlight has been seeing these creatures that I’ve had so much time and effort invested in finally brought to life.” Read more > eng.monash.edu.au/prospective/ profiles/profile/avon-perera

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is industrial design and engineering?

04 05

FUll TITlE Bachelor of Engineering (Honours) in the field of Materials Engineering

DURATION 4 years

CAMPUS Clayton

DOUBlE DEGREES* Arts, Biomedical Science, Commerce, Law, Science

SCAN FOR

MORE INFO

09 10 11

Materials Engineering

12 13 14 15

What is materials engineering? Materials engineering is all about making new materials and improving existing ones. It is about making things stronger, lighter and more functional, sustainable and cost-effective. It underpins much of engineering – if we want to make things, we need to have materials with the right properties.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Students are introduced to fundamental aspects of the nanostructure of materials and their relationship to both engineering properties and functional properties (optical, electronic, magnetic), and receive further training in other essential skills. lEvEl 3 AND 4

Whether it is the next generation jet engine, a biodegradable tissue scaffold to grow organs from stem cells or new types of solar cells and batteries – the structure, properties and processing of materials are crucial to the final product.

Wide treatment is given to the properties of metallic alloys, plastics, ceramics, nanomaterials, biomaterials, corrosion and composites.

Materials engineers cover everything from the thermal protection of the space shuttle and high-tech artificial hip and cochlear implants, to nanoparticles that seek and destroy cancer.

Students complete a thesis following a research project in which they work with research groups in their laboratories. Attention is given to special topics such as biomaterials, modelling, recycling, optimisation of properties, performance of materials in service and mechanical behaviour including shaping and fabrication. There is a capstone design project in which students use design principles and knowledge acquired to design a defined item for application.

Materials engineering is truly interdisciplinary. It involves physics, mathematics, biology and chemistry – culminating in a ground breaking, thriving job market for aspiring engineers. It also is highly suitable for engineers seeking to do research.

lEvEl 2

Materials engineering at Monash lEvEl 1 Students complete the Bachelor of Engineering (Honours) common first year – see page 10.

CHRISTINE CRAWSHAW Bachelor of Science and Bachelor of Engineering in the field of Materials Engineering Consultant Engineer and Project Manager, AECOM

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/0032.html

Your career in materials engineering The expertise of materials engineers is needed in many areas, including: ■

recycling and energy generation such as solar energy

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new biomaterials to image disease and heal the body

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lightweight metal alloys in cars to conserve energy

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materials for energy storage such as batteries and fuel cells

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functional nanomaterials

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traditional industries such as metallurgy and mining

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failure analysis.

lEvEl 4 ONlY

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career.

Materials engineers can also work as plastics engineers, ceramists, adhesive scientists, metallurgists, process and quality control engineers and corrosion or fracture engineers. They work in a range of industrial activities, including manufacturing, processing and recycling, and as consultants. * See admissions table beginning on page 30 for details on course duration.

I enjoy working with technical specialists and learning from their wealth of experience, there’s always something new to learn! My aspirations are to move into leadership roles within the company and to one day pass my knowledge on to the new young talented graduates. Read more > eng.monash.edu.au/prospective/profiles/profile/christine-crawshaw

05 06

DURATION 4 years

CAMPUS Clayton or Malaysia

DOUBlE DEGREES* (Clayton campus only) Arts, Biomedical Science, Commerce, Industrial Design, Law, Science

SCAN FOR

FUll TITlE Bachelor of Engineering (Honours) in the field of Mechanical Engineering

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07 08 09 10 11

Mechanical Engineering

12 13 14

Almost every product or service you see in our world has in some way been influenced by a mechanical engineer. Mechanical engineering is about turning energy into motion and power. It covers the generation, conversion, transmission and use of mechanical and thermal energy, and includes the design, construction and operation of devices and systems. As a mechanical engineer, you might design advanced materials for supersonic and hypersonic space travel. Or you might design robots and automatic control systems. Or perhaps you will work alongside medical professionals to investigate the human body and design aids and instruments for medicine.

Mechanical engineering at Monash lEvEl 1 Students complete the Bachelor of Engineering (Honours) common first year – see page 10. lEvEl 2 Units focus on the practice of engineering and on the engineering sciences. lEvEl 3 Units on engineering practice and mechanical engineering sciences are taken to a professional level, and include fluid mechanics, engineering design, dynamics, thermodynamics and solid mechanics. lEvEl 4 Final year students undertake a full year independent project in their area of interest. They also select four electives offering further scope for specialisation, for

RACHEl MACE Bachelor of Engineering in the field of Mechanical Engineering Applications Engineer, Knorr-Bremse (Knorr Brakes)

example aerodynamics, design or mechatronics.

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systems design

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power plant operations and quality control.

Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career.

Opportunities exist in nanotechnology, mining systems and processes, aerospace systems and flight control, manufacturing systems and processes, medical systems, bioengineering and many other developing fields.

For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/0032.html

Industries employing mechanical engineers include: ■

petrochemical

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manufacturing

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transportation

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automotive

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aerospace

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electronic

research and development

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mining

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product and process design

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robotics.

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technical sales and support

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manufacturing

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field and test engineering

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project management

Your career in mechanical engineering As a mechanical engineer you might pursue one or more of these specialist areas: ■

During my studies, I was a member of the Monash F-SAE team where I had the opportunity to be part of a group designing and building a race car from scratch. My favourite moment was travelling with the team to Silverstone in the UK to compete internationally against over 100 teams, placing 3rd overall. Read more > eng.monash.edu.au/prospective/profiles/profile/rachel-mace

Other growth industries include communications, banking, public utilities, consulting practices and the entertainment industry. * See admissions table beginning on page 30 for details on course duration.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is mechanical engineering?

06 07

09 10 11 12 13

FUll TITlE Bachelor of Mechatronics Engineering (Honours)

DURATION 4 years

CAMPUS Clayton

DOUBlE DEGREES* Arts, Commerce, Science

Bachelor of Engineering (Honours) in the field of Mechatronics Engineering

4 years

Malaysia

n/a

SCAN FOR

MORE INFO

Mechatronics Engineering

14 15

What is mechatronics engineering? Mechatronics is a multidisciplinary field of engineering that integrates mechanics, electronics, computer science and control theory. It is at the cutting-edge of creating smarter products, devices and processes. Mechatronics engineers develop, improve and optimise products and their functionality. As a mechatronics engineer you will improve the performance, features and functionality of things like cars, aircraft systems, medical and surgical devices and dishwashers.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

The processes and production lines used to make these and many other products are also mechatronic in nature.

Mechatronics engineering at Monash lEvEl 1 The first year of the mechatronics engineering program is similar to the common first year of the Bachelor of Engineering (Honours) (see page 10), including engineering dynamics, electrical systems, engineering structures and engineering materials. lEvEl 2 Units focus on providing fundamental knowledge across the wide range of disciplines that form the basis of mechatronics including thermo-fluids and power systems, mechanics, electronics and digital systems. lEvEl 3 Further fundamental knowledge is developed, plus units are studied that take mechatronics to a professional level, including mechatronics and manufacturing, and sensors and artificial perception.

JENNY lI Bachelor of Mechatronics Engineering and Bachelor of Science Risk, Resilience and Security Group, Arup

lEvEl 4 Students complete a full year thesis project, units in professional practice, robotics, and electives. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/3280.html

Your career in mechatronics engineering You will be equipped with the knowledge and skills to design and develop, manufacture and operate the intelligent products, and complex and advanced systems of today and tomorrow.

The applications for mechatronics engineering are virtually unlimited and the need for professionals in this progressive field is very high, and increasing. Opportunities exist in nanotechnology, mining systems and processes, robotics and automation, aerospace systems and flight control, manufacturing systems and processes, intelligent systems for motor vehicles, software engineering, telecommunications, medical systems, bioengineering and many other developing fields. There are vast opportunities for research and development in the above areas in academia, research institutions, and advanced industry sectors. Mechatronics engineers may also take on other roles in industry, in areas such as consulting, management and finance. * See admissions table beginning on page 30 for details on course duration.

I have always been interested in maths and science, especially being able to apply the theory in a practical application so engineering was the perfect choice! I chose Monash because I was able to do a double degree with science which meant I could have a deeper understanding of the engineering content and on a more fundamental level. Read more > eng.monash.edu.au/prospective/profiles/profile/jenny-li

07 08

DURATION 4 years

CAMPUS Clayton

SCAN FOR

FUll TITlE Bachelor of Mining Engineering (Honours)

MORE INFO

09 10 11 12 13

Mining Engineering

14 15

Mining engineering involves the extraction and processing of ores from the earth. Minerals are the basic inputs for the production of metals, pharmaceuticals and electronic items, as well as a source of fuel, and are used by manufacturing industries and utilities. Mining is essential to our daily lives and contributes to fulfilling the desires of a modern society. Mining engineers are highly qualified in various areas such as geology, metallurgy, the environment and sustainability, mine planning and project management, safety, communication skills, and leadership. Mining engineers work in all aspects of exploring, planning, extracting and processing minerals. It is essential that mining engineers work with the community to produce a sustainable solution with a minimal environmental footprint.

Mining engineering at Monash lEvEl 1 Level one includes the basic sciences such as mathematics, physics and chemistry, combined with a geoscience unit related to the planet and its environment, and an introductory mining engineering unit.

lEvEl 2 Units focus on providing fundamental knowledge across the wide range of disciplines including mechanics of solids, water systems and mine power and drainage. lEvEl 3 Units at this level relate specifically to mining engineering and include environmental impact assessment and management systems, mining systems planning, surface and underground mining, and mine ventilation.

positions filled by mining graduates each year, this degree will help you to stand out from the crowd. As a mining engineer, you will be able to work in all aspects of exploring, planning, extracting and processing minerals. Mining engineers have a diverse range of potential career paths. These may include: ■

evaluating the viability of mineral deposit sites

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planning the safest and most efficient extraction methods

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designing tunnels and shafts for underground operations

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designing pits and haulage roads for open-cut operations

lEvEl 4 At level four the orientation is towards professional and project-based units including mine management and economics, mineral processing, two design units related to hard rock and coal and a full year research project. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/4618.html

Your career in mining engineering It is a great time to enter the mining industry. With only about half of Australia’s mining engineer

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managing the operations of a mining site coordinating safety and environmental conditions

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reporting on mine operating costs

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consulting with the community

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working with modern automated mining technology.

You could also work in a range of other engineering professions involving tunnelling, such as road, rail, hydro electric and water supply projects. If you choose to work outside the mining sector, your skills in communication, organisation and project management will be highly regarded by major corporations and government departments in Australia and around the world.

MATTHEW HENDERSON Bachelor of Mechatronics Engineering Project Engineer

Engineering has been great for me, especially because it has allowed me to work in the mining industry during this exciting boom with unprecedented growth and large scale problems to solve. Read more > eng.monash.edu.au/prospective/ profiles/profile/matthew-henderson

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

What is mining engineering?

08 09

11 12

FUll TITlE Bachelor of Engineering (Honours) in the field of Chemical Engineering and Bachelor of Pharmaceutical Science

DURATION 5 years*

CAMPUS Clayton and Parkville

DOUBlE DEGREES Combining Chemical Engineering with Pharmaceutical Science

SCAN FOR

MORE INFO

13 14 15

Pharmaceutical Science and Engineering What is pharmaceutical science and engineering? Pharmaceutical science and engineering combines chemical engineering and pharmaceutical science to develop and manufacture formulated products such as pharmaceuticals, food, cosmetics and consumer goods.

DANIEl ROMANIN Bachelor of Engineering in the field of Chemical Engineering and Bachelor of Pharmaceutical Science

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Process Engineer, Aurecon

I chose Monash for its highly respected reputation within the industry. The program has an excellent mix of theoretical and practical work, delivered by lecturers who are highly decorated. The program was driven by industry based course work and offered me the opportunity to complete a double degree. Read more > eng.monash.edu.au/prospective/ profiles/profile/daniel-romanin

Chemical engineers can design, run and troubleshoot production facilities, but their training typically excludes the skills to develop pharmaceutical products. Similarly, pharmaceutical science graduates can invent and test new products, but they lack the know-how to manage the product process beyond the laboratory stage. Pharmaceutical engineering is a growing interdisciplinary field that breeds professionals capable of covering the full spectrum of the pharmaceutical product design and development process.

Pharmaceutical science and engineering at Monash lEvEl 1 – Parkville campus Students complete the standard first year of the Bachelor of Pharmaceutical Science. lEvEl 2 – Clayton campus Students undertake a compressed version of the engineering common first year and units from the second year

chemical engineering program including material and energy balances, heat and mass transfer and engineering thermodynamics. lEvEl 3 – Parkville campus Students complete the core second year units of the pharmaceutical science program and selected third year units in formulation chemistry. lEvEl 4 – Clayton campus Higher level chemical engineering units, including those from the biotechnology stream are completed. lEvEl 5 – Clayton campus Students undertake a thesis project in formulation or chemical engineering, or both. Chemical engineering units engineering in society, particle technology, transport phenomena and numerical methods and biochemical engineering, are studied. Twelve weeks of vacation employment is undertaken during the program allowing you to get experience in securing employment, a taste for working in industry and a head start on your career. For a full course structure scan the qR code at the top of this page or visit monash.edu.au/pubs/2013 handbooks/courses/3288.html

Your career in pharmaceutical science and engineering This double degree combination can open doors to a range of exciting careers creating sophisticated pharmaceutical products. Industry worldwide needs people with skills in both pharmaceutical science and engineering. Pharmaceutical engineers work in an enormous range of manufacturing industries, research and development laboratories and production plants. Many go on to become managers and consultants that contribute their expertise to research and testing, design and policy. As a pharmaceutical engineer you might be involved in developing advanced products such as eye drops that do not sting, or improved drugs and vaccines to target diseases such as malaria, cancer, HIV and diabetes. Beyond the pharmaceutical industry, you will also be equipped to develop cosmetics, food, and a whole host of other consumer products. * See admissions table beginning on page 30 for details on course duration.

How to Apply

Apply through vTAC If you are an Australian or New Zealand citizen, an Australian permanent resident, or you are an international student studying an Australian Year 12 or IB in Australia or New Zealand, apply through the Victorian Tertiary Admission Centre (VTAC). visit www.vtac.edu.au for more information. Prerequisites Please check that you meet the prerequisites for your chosen course before submitting your application. Prerequisite details for each course can be found in the admissions table beginning on page 30. Fees Australian citizens, New Zealand citizens, Australian permanent residents and permanent humanitarian visa holders are eligible to apply for a Commonwealth Supported Place (CSP).

International students International students must have completed an equivalent qualification to the Victorian Certificate of Education (VCE), and the prerequisite subjects or equivalent. English language requirements If you meet the academic requirements but not the English language requirements, you can take an English language bridging program offered by the Monash University English Language Centre. visit www.monash.edu/ englishcentre for more information. English language requirements can be found at www.adm. monash.edu.au/admissions/ undergrad/entry-requirements/ english-requirements.html

For full details on how to apply, admission requirements for all engineering courses and for specific requirements and qualifications which are not listed in this guide, visit www.monash.edu/international/ prospectivestudents Fees visit www.monash.edu/fees/ international-full-fee.html for information on fees for international students. Please note: 2014 tuition fees will be set in September 2013.

Credit transfer If you have studied at postsecondary level, you may be eligible for some credit towards your degree. The amount of credit awarded will depend on your completed qualification and the specific subjects you studied. To apply for credit, please include a certified copy of your results and full details of the syllabus with your application.

Alternative entry pathway â&#x20AC;&#x201C; Monash College Monash College offers fee paying programs for local and international students who need to bridge the gap between their highest qualification and the academic requirements accepted by Monash University. The College is also suited to students who narrowly miss the academic requirements for direct entry and do not wish to lose time repeating Year 12 or who do not want to attempt to transfer from another institution. Monash College offers entry into the second year of engineering degrees via the Diploma of Engineering Studies Part Two. The diploma is equivalent to the first year of study â&#x20AC;&#x201C; and once complete, you can move directly into second year studies at Monash University (subject to a minimum average mark of 60%). visit www.monash.edu/ monashcollege or phone + 61 3 9903 4788 for more information.

visit www.monash.edu.au/fees for more information.

Monash is a member of the Group of Eight, an alliance of leading Australian universities recognised for their excellence in teaching and research.

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

Domestic (Australian) and Onshore International students

Admissions, ATARs and Prerequisites Single Degrees PREREqUISITES

COURSE

CAMPUS

INdICATIVE ATAR SCORE (2013)

Engineering (Honours) After completing the common first year, students choose one of the following engineering disciplines1:

Clayton

91.40

Yes

4 years

Aerospace Engineering (Honours)

Clayton

92.05

4 years

Civil and Environmental Engineering (Honours)

Gippsland

70.90

4 years

■ ■

Chemical Civil Electrical and Computer Systems Materials Mechanical

Environmental Engineering (Honours)

Clayton

90.40

Mechatronics Engineering (Honours)

Clayton

91.40

Mining Engineering (Honours)

Clayton

91.55

Computer Systems Engineering (Honours)

Clayton

n/a2

VCE UNITS 3 ANd 4

MINIMUM STUdy SCORE REqUIREd

English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics

30 25 25 25 25

English (ESL) or any other English + Mathematical Methods (CAS) + Physics

30 25 25 25

Bachelor of Engineering at Sunway campus Malaysia

SINgLE dEgREES

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

SINgLE dEgREES

■

COMMON fIRST yEAR

COURSE LENgTH (fULL TIME)

COURSE

CAMPUS

ENTRy SCORE

Engineering (Honours) After completing the common first year, students choose one of the following engineering disciplines1:

Malaysia

Direct application to Malaysia campus. See www.monash.edu.my for further information.

■ ■ ■ ■ ■

COMMON fIRST yEAR

COURSE LENgTH (fULL TIME)

Yes

4 years

Chemical Civil Electrical and Computer Systems Mechanical Mechatronics

1. Selection into disciplines subject to quotas and academic performance during common first year. 2. The VTAC Guide does not report Indicative ATAR scores for programs with an intake of less than 10 students because the score may not be an accurate indication of the academic threshold for the program. In determining their prospects, students are advised to consider the indicative

Monash sits in the top 1% of world universities. * times Higher Education World university rankings, 2011

ATAR scores for similar programs with larger cohorts, as these provide a better indication of the target range for determining selection. 3. Available with the following disciplines: chemical, civil, electrical and computer systems, materials or mechanical engineering.

4. Students will normally expect to complete the course in five years. This is achieved by undertaking one additional unit (above the standard four units) per semester, twice, in the later stages of the degree. 5. Individual offer based on folio, interview and ATAR. As a general rule students will require a similar academic standard to the Bachelor of Engineering to be considered for the program. This double degree is only available with the discipline of mechanical engineering.

Double Degrees PREREqUISITES

Aerospace Engineering (Honours)/Arts Engineering (Honours)/Arts3

Clayton

ARTS BIOMEdICAL SCIENCE COMMERCE INdUSTRIAL dESIgN LAW PHARMACEUTICAL SCIENCE

COURSE LENgTH (fULL TIME) 5 years4

n/a2 91.90

No Yes

5 years4

No No No

5 years4

Environmental Engineering (Honours)/Arts Mechatronics Engineering (Honours)/Arts Biomedical Science/Engineering (Honours)3

Clayton

92.35 n/a2 95.35

Commerce/Engineering (Honours)3

Clayton

93.15

Yes

5 years4

Commerce/Aerospace Engineering (Honours)

Clayton

93.00

5 years4

Commerce/Mechatronics Engineering (Honours) Environmental Engineering (Honours)/ Commerce

93.25 93.10

Civil and Environmental Engineering (Honours)/Business and Commerce

Gippsland

n/a2

5 years4

Engineering (Honours)/Design (Industrial Design)

Clayton and Caulfield

Range of criteria5

5 years4

Aerospace Engineering (Honours)/Laws Engineering (Honours)/Laws3

Clayton

n/a2 98.15

No Yes

6.5 years

92.20

5 years4

93.15

5 years

Engineering (Honours)/Pharmaceutical Science Clayton and Parkville

Aerospace Engineering (Honours)/Science SCIENCE

COMMON fIRST yEAR No

Clayton

Science/Engineering (Honours)3

92.75

Mechatronics Engineering (Honours)/Science4

91.55

Environmental Engineering (Honours)/Science

91.80

VCE UNITS 3 ANd 4 English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics Range of criteria apply, including application kit and interview. Visit www.artdes.monash.edu/ study/apply/kit.html English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics English (ESL) or any other English + Chemistry + Mathematical Methods (CAS) + Physics or Specialist Mathematics English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics English (ESL) or any other English + Mathematical Methods (CAS) or Specialist Mathematics + Chemistry + Physics English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics + Folio and interview Visit www.artdes.monash.edu/ study/apply/kit.html for information on the folio and interview English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry + Biology or Physics or Specialist Mathematics English (ESL) or any other English + Mathematical Methods (CAS) + Chemistry or Physics

MINIMUM STUdy SCORE REqUIREd 30 25 25 25 25

30 25 25 25 25 35 30 25 25 25 25 30 25 25 25 25 30 25 25 25 25 30 25 25 25 25 25 30 25 25 25 25

35 30 25 25 25 30 25 25 25 25 25 30 25 25 25 25

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

CAMPUS Clayton and Caulfield

ARCHITECTURAL dESIgN

COURSE Engineering (Honours)/Architectural Design

INdICATIVE ATAR SCORE (2013) Range of criteria

International Admissions Bachelor of Engineering (Honours) at Clayton and Malaysia

Faculty of Engineering Undergraduate Course Guide 2014 www.eng.monash.edu

qUALIfICATION

REqUIREMENTS * see prerequisite subjects

All Indian Senior Secondary School Certificate Australian Year 12 GCE A Level

80%

Higher International General Certificate of Secondary Education Hong Kong Diploma of Secondary Education

Indian School Certificate (ISC) International Baccalaureate (IB) Diploma Monash University Foundation Year (MUFY) National Certificate of Educational Achievement Level 3 (NZ)

75% 30

Ontario Secondary School Diploma

80%

RMIT Foundation Year La Trobe Foundation Year

85% 85%

SAT (Scholastic Aptitude Test)

1925

South African National Senior Certificate

South Australian Certificate of Education (SACE) South Australian Matriculation (SAM) Sri Lanka A Level

ATAR 86.40

STPM Malaysia

9.33 points

UEC (Malaysia)

3.00

UNIPREP Indonesia/UNSW Foundation Year University of Melbourne Trinity Foundation Year

8.0

ATAR 86.40 10 points

305 ATAR 86.40

ATAR 86.40 12 points

80%

CALCULATION Of SCORE Average of the best four academic subjects, excluding the local language. English met by 60% or above in English subject. Equivalent ATAR. Total score of a maximum of 3 A Levels subjects taken in one academic year. Two AS Levels subjects can be counted in place of one A Level subject, provided that the subject has not been taken at A Level and there is at least one A Level subject in the calculation. Score A Levels as follows: A* or A = 5, B = 4, C = 3, D = 2, E = 1. Score AS Levels as follows: A = 2.5, B = 2, C = 1.5, D = 1, E = 0.5. English met by a minimum of C Grade in GCSE (O Level) English, English Language, English Literature or English as a Second Language (including Speaking and Listening component). Total of all scores achieved in one sitting from 6 subjects. Calculate scores as follows: One = 1, Two = 2, Three = 3, Four = 4 (One being the highest). English met by a minimum of C Grade in IGSCE English. Total of the best five subjects (Category A & C only - Category B not to be used in calculation). Grades scored as follows: Level 1 = 1 (lowest), Level 2 = 2, Level 3 = 3, Level 4 = 4, Level 5 = 5 (highest). A = 5, B = 4, C = 3, D = 2, E = 1. English met by minimum of Level 4 in Senior Secondary 3 English. Average of % marks for best four subjects as shown on final transcript. English met by a pass (60%) in English. Total score achieved for all subjects as reflected on transcript. Evidence of successful completion of the diploma is required. English met by minimum of 4 in English (SL) or 3 in English (HL). Final MUFY score as shown on academic record. English met by successful completion of English A and English B with a minimum average of 65%. Equivalent ATAR. New Zealand students undertaking the NCEA, who intend to apply for courses at Monash University, are advised to attempt only achievement standards or mainly achievement standards, as Monash University will only consider applicants on the result of graded assessment. Unit standards do not qualify as graded assessment, as the only possible results are achieved/attempted. Average score of the six best Grade 12 academic subjects, excluding workplace preparation and open courses. English met by a pass (50%) in Grade 12 English subject. Average of percentage grades for all subjects completed, including fails. English met by minimum of 65% in English. Average of percentage grades for all subjects completed, including fails. English met by a minimum of 65% in Academic Study Skills I and II. Total of the Critical Reading, Mathematics and Writing scores. A completed Grade 12 Diploma must also be submitted. English met by a pass (70%) in Grade 12 English. Total results in the best six subjects (excluding Life Orientation). Bonus points, to a maximum of four, for subject scores as follows: English Level 5 or higher = +2, Mathematics Level 5 or higher = +2, Mathematical Literacy Level 6 or higher = +2. South African National Senior Certificate subject Physical Science is considered comparable to VCE Physics and Chemistry Units 3 & 4. English met by minimum of Level 4 in Grade 12 English. Equivalent ATAR. Equivalent ATAR. Total score of a maximum of three A Level subjects taken in one academic year. A = 5, B = 4, C = 3, S = 1. English met by an IELTS overall score of 6.5 with no band less than 6.0. Total of SGP scores in the best three academic subjects (Pengajian Am is excluded). English met by a minimum of C grade in SPM English 1119 (SPM English 1119 must be followed by completion of A Levels or an equivalent qualification that has English as the language of instruction and assessment) OR submission of an IELTS with an overall score of 6.5 with no band less than 6.0. Average of the best five subjects. If average ends in decimal point, the score will be rounded down eg. average of 4.9 will be rounded down to 4. Scores calculated as follows: A1 = 1, A2 = 2, B3 = 3, B4 = 4, B5 = 5, B6 = 6, C7 = 7, C8 = 8. English met by an IELTS overall score of 6.5 with no band less than 6.0. Final Cumulative Grade Point Average as shown on transcript. English met by a minimum of 6.5 (C Grade) in Academic English. Average of the best four subjects as shown on final transcript. English is met by a minimum of 65% in ‘English’ and a minimum of 50% in ‘English for Academic Purposes’.

Dates to Remember Engineering Information Evening/At Monash Seminar Current students and academic staff give talks on courses and careers in engineering followed by an expo where you can talk to presenters, students and faculty staff. Date: Thursday 30 May Time: 6.30pm Venue: Lecture Theatre C1, Building 63, Clayton campus Bookings and more information visit: www.monash.edu/seminars

Open Day Open Day gives you the chance to talk to academic staff, meet students and tour the faculty and campus. Date: Clayton campus: Sunday 4 August Gippsland campus: Saturday 3 August Time: 10.00am â&#x20AC;&#x201C; 4.00pm More information visit: www.monash.edu closer to the date.

Contact Us + 61 3 9905 3404 engineering.enquiries@monash.edu Building 72 Monash University Wellington Road Clayton VIC 3800 Australia facebook.com/MonashEngineering twitter.com/MonashEngineers

Monash Engineering is proud to have the following industry partners who support our students through scholarships and prizes:

Monash University reserves the right to alter information, procedures, fees and regulations contained in this document. Please check the Monash University website for updates (www.monash.edu). All information reflects prescriptions, policy and practice in force at time of publication. Published April 2013.

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CRICOS provider: Monash University 00008C