Study Planner Information
What will I study?
In this major, you will develop a broad knowledge of classical and modern physics. Courses in physics include: astronomy, biophysics, electromagnetism, laser physics, mathematical physics, mechanics, optics, quantum physics, and thermodynamics.
In later years you can specialise in your particular area of interest. Electives under the general stream will prepare you for most areas of physics including quantum information and quantum optics, condensed matter physics, biophotonics and laser science. More specialist plans exist for studying astronomy and astrophysics and mathematical physics.
Assessment tasks vary across different courses but include poster presentations, assignments, laboratory reports and exams.
As well as content knowledge in this area you will be given the opportunity to develop a range of other skills such as problemsolving capabilities, laboratory skills and computing abilities that will equip you to pursue a career in this area.
Year 1 to 4 Year Study Planners
The following are suggested study plans for this major and should be used as a guide to assist in planning your program. BAdvSc(Hons) students will complete #64 units in total, comprising:
 #6 for Part A (either STAT1201 or STAT1301 plus SCIE1100 and SCIE1200)
 #36 for the requirements for a major as per the course list (including #28 level 3 or above).
 #6 from the BAdvSc(Hons) or BSc course list
 #16 (science or nonscience) electives
Please refer to the course list to ensure you complete the program and major requirements.
How do I use the Study Plans?
 Take all Compulsory Courses in each semester.
 Select required number of units in Key Courses for each year level.
 Fill any gaps in each semester with Key Courses or electives to ensure you meet the BAdvSc(Hons) requirements and rules.
What do the different requirements mean?
 Compulsory for the Program – All student must complete these courses as part of the program requirements.
 Prerequisites for Major – First year prerequisites for the major
 Compulsory for the Major – All student must complete these courses as part of the major requirements.
 Key Courses – Electives from the major's course list.
 Recommended Electives – Courses that complement the major but can be substituted for another elective.
Choose a study plan

1st Year Study Planner
Sem Compulsory for the Program Prerequisites for Major Recommended Electives 1 SCIE1100 Advanced Theory and Practice in Science PHYS1001 Mechanics & Thermal Physics
MATH1051 Calculus & Linear Algebra I^{1}
OR
MATH1071 Advanced Calculus & Linear Algebra I^{2}Please refer to course list 2 STAT1201 Analysis of Scientific Data^{5}
OR
STAT1301 Advanced Analysis of Scientific Data^{5}
SCIE1200 Introduction to Science ResearchPHYS1002 Electromagnetism and Modern Physics
MATH1052 Multivariate Calculus & Ordinary Differential Equations
OR
MATH1072 Advanced Multivariate Calculus & Ordinary Differential Equations^{2} 1. Students without at least a Sound Achievement in Senior Maths C are required to take MATH1050 as an elective before MATH1051
2. Students with a high achievement in Senior Maths C (or a 6 or 7 in MATH1050) should take the sequence MATH1071, MATH1072 and MATH2401. Students with a sound achievement in Senior Maths C (or a 4 or 5 in MATH1050) should take the sequence MATH1051, MATH1052 and MATH2400.
5. Students who intend to major in Mathematics should take STAT1301. Other students with an interest in advanced mathematics and at least a high achievement in Maths C or a 6 in MATH1050 are encouraged to take STAT1301. 
2nd Year Study Planner
Sem Compulsory for the Major Key Courses Recommended Electives 1 PHYS2020 Thermodynamics & Condensed Matter Physics
PHYS2055 Introduction to Fields in PhysicsMATH2001 Advanced Calculus and Linear Algebra
MATH2100 Applied Mathematical Analysis
MATH2301 Linear & Abstract Algebra & Number Theory
MATH2400 Mathematical Analysis
PHYS2810 Electronics & Circuit Theory2 PHYS2041 Quantum Physics
PHYS2101 Advanced Dynamics and Special RelativityBIPH2000 Foundations of Biophysics
COSC2500 Numerical Methods in Computational Science
PHYS2082 Space Science & Stellar Astrophysics 
3rd Year Study Planner
Year 3 Compulsory for the Major Key Courses
At least #2 from late year courses:Recommended Electives 1 MATH4105 General Relativity^{3}
PHYS3040 Quantum Physics
PHYS3051 Fields in PhysicsSCIE3250 / SCIE3251 Introduction to Research in Mathematics/ Physics^{4}
PHYS3071 Computational PhysicsMATH3101 Bifurcation and Chaos
MATH3201 Scientific Computing: Advanced Techniques & Applications
MATH3303 Abstract Algebra & Number Theory
MATH3401 Complex Analysis2 PHYS3020 Statistical Mechanics
PHYS3901 Perspectives in Physics ResearchPHYS3080 Extragalactic Astrophysics & Cosmology
PHYS3825 Advanced Experimental SkillsBIPH3000 Molecular & Membrane Biophysics^{5}
MATH3102 Methods & Models of Applied Mathematics3. Students must take PHYS2100 before they take MATH4105
4. SCIE3250 / SCIE3251 can be taken in semester 1, semester 2 or summer semester.
5. This course is not offered in 2017. 
4th Year Study Planner
Year 4 Compulsory for the Major Key Courses
At least #6 from late year courses:Recommended Electives 1 PHYS6501 Advanced Physics Research Report^{6} PHYS4030 Condensed Matter Physics: Electronic properties of crystals
PHYS4040 Advanced Quantum Theory 2 PHYS6501 Advanced Physics Research Report^{6} MATH4104 Advanced Hamiltonian Dynamics & Chaos
PHYS4055 Laser Physics & Quantum Optics
PHYS4070 Advanced Computational Physics 6. This is a full year course. Select the same course for semester 1 and 2.
Physics graduates develop robust, highlevel analytical and problemsolving skills that are widely applicable and highly valued by a diverse range of employers including those in education, finance, engineering, computing and management.
Physicists engage in a wide range of exciting and rewarding careers across many industries in both the public and private sectors. Many physicists are employed by governments in research and management positions; by universities in the areas of teaching, research and technical positions; as education and science communicators; in health and medical sectors; and in nuclear physics. Other physicists take a higher degree and work in research and development; undertaking fundamental research to increase scientific knowledge, or applied research to develop new devices, products or processes.
On completing a degree in Physics at the University of Queensland, students can be expected to have the following range of attributes developed in consultation with the Australian Institute of Physics.
Students will be able to
 Demonstrate a knowledge of fundamental physics concepts and principles;
 Evaluate the role of theoretical models and empirical studies in the past and current development of physics knowledge;
 Apply physics principles to understand the causes of problems, devise strategies to solve them and test the possible solutions;
 Use a range of measurement and data analysis tools to collect data with appropriate precision and carry out subsequent analysis with due regard to the uncertainties;
 Use the tools, methodologies, language and conventions of physics to test and communicate ideas and explanations;
 Work effectively and ethically in a multifaceted scientific environment; and
 Be responsible, critically reflective, selfdirected and motivated learners.
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First Year Guide 2017 for St Lucia Students
First Year Guide 2017 for Gatton Students
First Years  Gatton (External)
First Year Guide 2017 for External Gatton Students