|Details for undergraduate courses|
|Content||The content of this unit includes (1) electrodynamics—conservation laws, electromagnetic waves, potentials and fields, radiation; (2) special relativity—special theory of relativity, relativistic mechanics, relativistic electrodynamics; and (3) signals, noise and control. The content is explored with reference to a range of applications and physical contexts, and developed and applied through a laboratory experiment. Skills in problem identification, mathematical exploration and solution are fostered through assignment sheets, tutorial activities and a laboratory experiment.|
|Outcomes||Students are able to (1) deepen their understanding of the physical principles underlying electrodynamics, special relativity and signals, noise and control; (2) apply and further develop critical thinking skills in a range of realistic physical situations; (3) use appropriate mathematical techniques; (4) develop and apply problem identification and mathematical solution skills in a range of realistic physical situations; (5) apply and further develop understanding of the physical principles of measurement, experimental technique, quantitative analysis and data analysis relevant to physics; and (6) further develop oral and written communication skills relevant to the discipline of physics.|
|Assessment||Typically this unit is assessed in the following ways: (1) assignments; (2) experimental laboratory projects; (3) scheduled tests; (4) laboratory write-ups and presentations; and (5) an end-of-semester examination. Further information is available in the unit outline.|
To pass this unit, a student must: (a) achieve an overall mark of 50 per cent or higher for the unit; and (b) achieve the requisite standard(s) for the experimental laboratory projects component of the unit, as specified in the unit outline.
Supplementary assessment is not available in this unit except in the case of a bachelor's pass degree student who has obtained a mark of 45 to 49 overall and is currently enrolled in this unit, and it is the only remaining unit that the student must pass in order to complete their course.
|Unit Coordinator(s)||Dr Darren Grasso|
|Contact hours||lectures: average 3 hours per week; tutorials: 1 hour per week; project/lab work: 24 hours per semester|
Current information is available in the School of Physics textbook list.