PH2019 - Introduction to Electromagnetism Optics and Early Quantum
|Student Contribution Band:
||College of Science and Engineering
The fundamental principles of Electromagnetism, Optics and Early Quantum are taught
to give student the basic skills required for more advanced studies in Engineering
and Physics. Electromagnetism is one of the fundamental areas of Physics that has
applications in wide variety of applications. The work covered is a precursor to applications
to subjects such as Antenna design, EM shielding, propagation, electro-machinery,
fibre-optic communications, mobile phone technology and computer technology to mention
just a few. Topics include Gauss's Law, Biot Savart law, Ampere's law, plane waves,
geometric optics, diffraction, interference, and early quantum.
- demonstrate an understanding of the concepts and laws fundamental to Advanced Optics,
- solve problems in Advanced Optics, and Electromagnetism, using the necessary physics
concepts, principles, and disciplinary areas of mathematics;
- undertake laboratory work by gathering, analysing, and documenting experimental and
- communicate experimental physics data, results, and analysis by producing a workbook
detailing experimental observations.
||(EG1012 OR PH1005) AND MA1003
Study Period 1
|Census Date 28-Mar-2019
||Mr John Daicopoulos
||Mr John Daicopoulos, Assoc. Professor Daniel Kosov.
The student workload for this
credit point subject is approximately
- 39 hours lectures
- 13 hours tutorials
- 26 hours practicals
- assessment and self-directed study
||end of semester exam (50%); quizzes or tests (15%); assignments (10%); practicals (25%).
Minor variations might occur due to the continuous Subject quality improvement process,
and in case
of minor variation(s) in assessment details, the Subject Outline represents the latest