Bachelor of Science (Nanotechnology)/Bachelor of Science (Applied Sciences)
Royal Melbourne Institute of Technology
About
As a graduate of this program, you will have the knowledge and skills necessary to practice as both a Nanotechnology and a Physics or Chemistry professional (depending on your chosen major), as well as having education in relevant aspects of biology and engineering.
Over the duration of the program you will develop:A broad and coherent Body of Knowledge, with depth in the underlying principles and concepts in Nanotechnology and Physics/Chemistry, as a basis for independent lifelong learning, and which allow you to reflect critically on theory and professional practice.
Cognitive skills to review critically, analyse, consolidate and synthesise Nanotechnological and Physical/Chemical information, problems, concepts and theories.
Cognitive and technical skills to demonstrate a broad understanding of Nanotechnology and Physics/Chemistry knowledge with depth in some areas.
Cognitive and creative skills to exercise critical thinking and judgement in identifying and solving Nanotechnological and Physical/Chemical problems with intellectual independence.
Communication skills to present clear and coherent exposition of Nanotechnology and Physics/Chemistry knowledge and ideas.
Nanotechnology and Physics/Chemistry knowledge and skills which you will apply with initiative and judgment in planning, problem solving and decision making in professional practice and/or scholarship and research.
Nanotechnology and Physics/Chemistry knowledge and skills to selectively apply in diverse contexts.
Nanotechnology and Physics/Chemistry knowledge and skills you will apply with responsibility and accountability for your own learning and professional practice and in collaboration with others.In your final year you will undertake a capstone experience comprising ONPS2186 Science Project (where you will produce a substantial fundamental or industrial research project in your chosen area of specialism) and ONPS2335 The Profesional Scientist .
The Science Project is a culmination of your studies - an opportunity to integrate knowledge, skills and their application.
The Professional Scientist marks your transition from science student to work-ready science graduate.This double degree program requires on campus attendance.
It includes on-line components.
Structure
All courses listed may not be available each Semester.
Year One of Program
Complete the following Seven (7) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Scientific Skills and Communication | 12 | ONPS2334 | City Campus |
| Chemistry of Materials 2 | 12 | CHEM1031 | City Campus |
| Chemistry of Materials 1 | 12 | CHEM1030 | City Campus |
| Modern Physics | 12 | PHYS2123 | City Campus |
| Mechanics | 12 | PHYS2122 | City Campus |
| Introduction to Nanotechnology | 12 | ONPS2149 | City Campus |
| Calculus and Analysis 1 | 12 | MATH1142 | City Campus |
Select and Complete One (1) of the following Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Cell Structure and Function | 12 | BIOL2146 | City Campus |
| Life on Earth | 12 | ENVI1142 | City Campus |
Year Two of Program
Complete the following Four (4) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Analytical Spectroscopy | 12 | CHEM1053 | City Campus |
| Calculus and Analysis 2 | 12 | MATH1144 | City Campus |
| Semiconductor Device Fabrication | 12 | EEET2155 | City Campus |
| Instrumentation for Scientists and Engineers | 12 | PHYS2070 | City Campus |
Select and Complete Four (4) Courses from Year Two in your selected Major. Refer to course selections for Major in Physics or Chemistry at the end of this program structure document:
ANDYear Three of Program
Complete the following One (1) Course:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Mathematics for Physicists | 12 | MATH1129 | City Campus |
Complete One (1) of the following Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Nanotechnology Methodology | 12 | ONPS2155 | City Campus |
| Nanotechnology Practice | 12 | ONPS2156 | City Campus |
Select and Complete One (1) Course from the Science Option Course List at the end of this program structure.
Select and Complete Five (5) Courses from Year Three in your selected Major. Refer to course selections for Major in Physics or Chemistry at the end of this program structure document:
ANDYear Four of Program
Complete the following Two (2) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| The Professional Scientist | 12 | ONPS2335 | City Campus |
| Science Project | 12 | ONPS2186 | City Campus |
Complete the following One (1) Course:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Nanotechnology Methodology | 12 | ONPS2155 | City Campus |
Complete the following One (1) Course:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Nanotechnology Practice | 12 | ONPS2156 | City Campus |
Select and Complete Five (5) Courses from Year Four in your selected Major. Refer to course selections for Major in Physics or Chemistry at the end of this program structure document:
ANDMajor in Physics
YEAR TWO: Complete the following Three (3) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Thermodynamics and Electromagnetism | 12 | PHYS2127 | City Campus |
| Materials Physics | 12 | PHYS2179 | City Campus |
| Programming Fundamentals for Scientists | 12 | COSC2676 | City Campus |
Select and Complete One (1) Course from any:
YEAR THREE : Complete the following Four (4) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Classical & Quantum Mechanics | 12 | PHYS2178 | City Campus |
| Solid State Physics | 12 | PHYS2068 | City Campus |
| Electromagnetism | 12 | PHYS2181 | City Campus |
| Radiation & Nuclear Physics | 12 | PHYS2176 | City Campus |
Select and Complete One (1) of the following Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Real and Complex Analysis | 12 | MATH2150 | City Campus |
| Computational Mathematics | 12 | MATH2136 | City Campus |
| Advanced Mathematical Modelling | 12 | MATH2139 | City Campus |
YEAR FOUR : Select and Complete One (1) Course from the Science Option Course List at the end of this program structure:
Complete the following Three (3) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Quantum Physics | 12 | PHYS2175 | City Campus |
| Optics & Photonics | 12 | PHYS2180 | City Campus |
| Thermal & Statistical Physics | 12 | PHYS2177 | City Campus |
Select and Complete One (1) Course from any:
ANDChemistry Major
YEAR TWO : Complete the following Four (4) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Chemistry Theory 2A | 12 | CHEM1039 | City Campus |
| Chemistry Laboratory 2A | 12 | CHEM1041 | City Campus |
| Chemistry Theory 2B | 12 | CHEM1040 | City Campus |
| Chemistry Laboratory 2B | 12 | CHEM1042 | City Campus |
YEAR THREE : Complete the following Four (4) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Chemistry Theory 3A | 12 | CHEM1067 | City Campus |
| Chemistry Laboratory 3 | 12 | CHEM1069 | City Campus |
| Instrumental and Environmental Analysis | 12 | CHEM1054 | City Campus |
| Chemistry Theory 3B | 12 | CHEM1068 | City Campus |
Select and Complete One (1) Course from the Science Option Course List at the end of this program structure.
YEAR FOUR : Complete the following Three (3) Courses:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Advanced Spectroscopic Analysis | 12 | CHEM1080 | City Campus |
| Chemistry of Drugs and Toxins | 12 | ONPS2188 | City Campus |
| Programming Fundamentals for Scientists | 12 | COSC2676 | City Campus |
Select and Complete Two (2) Courses from any:
ANDScience Options
Course List:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Advanced Bioinformatics | 12 | BIOL2196 | City Campus |
| Microbiology | 12 | BIOL2158 | City Campus |
| Genetics and Molecular Biology | 12 | BIOL2262 | City Campus |
| Real and Complex Analysis | 12 | MATH2150 | City Campus |
| Computational Mathematics | 12 | MATH2136 | City Campus |
| Advanced Mathematical Modelling | 12 | MATH2139 | City Campus |
| Numerical Solutions of DEs | 12 | MATH2144 | City Campus |
| Modelling with Differential Equations | 12 | MATH2138 | City Campus |
| Science Fiction - Science Fact | 12 | ONPS2495 | City Campus |
| Energy and Earth's Environment | 12 | PHYS2066 | City Campus |
| Astrophysics and Cosmology | 12 | PHYS2067 | City Campus |
| Astronomy and Black Holes | 12 | PHYS2086 | City Campus |
| Scientific Visualisation | 12 | PHYS2097 | City Campus |
| Laboratory and Fieldwork Safety | 12 | PUBH1369 | City Campus |
Entry requirements
Program entry requirements
Successful completion of an Australian Year 12 senior secondary certificate of education or equivalent.
For information on international qualifications and corresponding entry requirements that are equivalent to Australian academic entry requirements, see theCountry equivalents web page.
Prerequisites
Victorian Certificate of Education (VCE) prerequisite units 3 and 4 — a study score of at least 20 in one of Chemistry or Physics; and a study score of at least 20 in one of Mathematical Methods (CAS) or Specialist Mathematics; and a study score of at least 30 in English (EAL) or at least 25 in any other English.
English language requirements
A minimum IELTS (Academic module) overall score of 6.5, with no band below 6.0; or equivalent.
For equivalents to English entry requirements, see the English equivalents web page.
Learning outcomes
This double degree brings together complementary learning outcomes from Nanotechnology and Applied Sciences. You will have 16 core nanotechnology courses and stream courses in your science specialisation (Chemistry or Physics).
On completion of this program you should be able to:
PLO 1: Understanding science:
PLO 1.1: Demonstrate an understanding of the scientific method and an ability to apply the scientific method in practice.
PLO 1.2: Demonstrate an understanding of the role and relevance of science in society.
PLO 1.3: Demonstrate an understanding of the role and importance of evidence in the continuous evolution of scientific knowledge.
PLO-2: Scientific knowledge
PLO 2.1: Demonstrate a broad knowledge in your chosen discipline, with deep knowledge in its core concepts.
PLO 2.2: Demonstrate knowledge in at least one discipline other than your primary discipline and some understanding of interdisciplinary linkages.
PLO-3: Inquiry and Problem Solving
PLO 3.1: Plan and carry out a research project under supervision, showing the development of some capacity for independent work.
PLO 3.2: Gather, critically review and synthesise information relevant to a scientific inquiry or research project.
PLO 3.3: Choose appropriate tools and methods to solve scientific problems within your area of specialization.
PLO 3.4: Demonstrate well-developed problem solving skills, applying your knowledge and using your ability to think analytically and creatively.
PLO 3.5: Demonstrate an ability to accurately record, analyse, interpret and critically evaluate your research findings.
PLO-4: Communication
PLO 4.1: Communicate the solution to a problem or the results of a scientific investigation using effective oral, written and presentation skills.
PLO 4.2: Communicate the solution to a problem or the results of a scientific investigation using appropriate methods for different audiences.
PLO-5: Personal and professional responsibility
PLO 5.1: Demonstrate a capacity for independent and self-directed work.
PLO 5.2: Demonstrate you can work responsibly, safely, legally and ethically.
PLO 5.3: Demonstrate an ability to work collaboratively.
Institution
