Handbook 1996 : Faculty of Science (Volume 4 page 226)
Physics subject : Next:640-161 | Prev:640-141 | Search | Help
640-142 "Physics B" appears differently in several places - choose the one you want:
1. Physics, Faculty of Science (v4, p226) : Next:640-161 | Prev:640-141
Credit points: 12.5
Coordinator: Dr M N Thompson
Prerequisite: Physics and mathematics (two mathematics subjects are recommended) from the final year of secondary school. It will be assumed that students are familiar with the content of Physics 640-141.
Contact: 39 lectures (three a week), 13 x 1-hour tutorials and 39 hours practical work (three hours per week)
Timetable: Semester 2
Objectives:
By the completion of this course the student should:
- comprehend a broad range of elementary physics sufficient to lay a basis for higher year studies in physics;
- have developed skills in applying verbal and mathematical reasoning to the understanding of elementary physical systems and in acquiring and evaluating experimental data;
- appreciate the power and depth of physical theory in a wide range of science and technology.
Content:
Electromagnetism: electrostatics; circuits; magnetism; electric and magnetic properties of matter; Maxwell's equations; electromagnetic waves. Quantum Theory: historical foundations; wave and particle properties of electrons and photons. Atomic and Nuclear Physics: atomic and nuclear structure; X-rays, radioactivity; and nuclear radiations; fission and fusion; nuclear power.
Assessment:
A 3-hour written examination at the end of the semester and tests and/or written assignments during the semester (75 per cent); laboratory work (25 per cent). Students must complete both laboratory and assignment work satisfactorily to obtain a pass
Prescribed texts:
1. Physics, Faculty of Science (v4, p226) : Next:640-161 | Prev:640-141
2. Physics, Faculty of Arts (v3, p145) : Next:640-161 | Prev:640-141
Credit points: 12.5
Coordinator: Dr M N Thompson.
Prerequisite: Physics and mathematics (two mathematics subjects are recommended) from the final year of secondary school. It will be assumed that students are familiar with the content of Physics 640-141.
Contact: 39 lectures (three a week), 13 x 1-hour tutorials and 39 hours practical work (three hours per week).
Timetable: Second semester
Objectives:
By the completion of this subject the student should:
- comprehend a broad range of elementary physics sufficient to lay a basis for higher year studies in physics;
- have developed skills in applying verbal and mathematical reasoning to the understanding of elementary physical systems and in acquiring and evaluating experimental data;
- appreciate the power and depth of physical theory in a wide range of science and technology.
Content:
Electromagnetism: electrostatics; circuits; magnetism; electric and magnetic properties of matter; Maxwell's equations; electromagnetic waves. Quantum Theory: historical foundations; wave and particle properties of electrons and photons. Atomic and Nuclear Physics: atomic and nuclear structure; X-rays, radioactivity; and nuclear radiations; fission and fusion; nuclear power.
Assessment:
A 3-hour written examination at the end of the semester and tests and/or written assignments during the semester (75 per cent); laboratory work (25 per cent). Students must complete both laboratory and assignment work satisfactorily to obtain a pass
Prescribed texts:
* Note that OBJECTIVES, PRESCRIBEDTEXTS, SEMESTER differs from the maintainer's version above. A log of variations is available.
2. Physics, Faculty of Arts (v3, p145) : Next:640-161 | Prev:640-141
3. Physics, Faculty of Educ(Parkville) (v5, p157) : Next:640-161 | Prev:640-141
Credit points: 12.5
Coordinator: Dr M N Thompson.
Prerequisite: Physics and mathematics (two mathematics subjects are recommended) from the final year of secondary school. It will be assumed that students are familiar with the content of Physics 640-141.
Contact: 39 lectures (three a week), 13 x 1-hour tutorials and 39 hours practical work (three hours each week)
Timetable: Second semester.
Objectives:
By the completion of this course the student should:
- comprehend a broad range of elementary physics sufficient to lay a basis for higher year studies in physics;
- have developed skills in applying verbal and mathematical reasoning to the understanding of elementary physical systems and in acquiring and evaluating experimental data;
- appreciate the power and depth of physical theory in a wide range of science and technology.
Content:
Electromagnetism: electrostatics; circuits; magnetism; electric and magnetic properties of matter; Maxwell's equations; electromagnetic waves. Quantum Theory: historical foundations; wave and particle properties of electrons and photons. Atomic and Nuclear Physics: atomic and nuclear structure; X-rays, radioactivity; and nuclear radiations; fission and fusion; nuclear power.
Assessment:
A 3-hour written examination at the end of the semester and tests and/or written assignments during the semester (75 per cent); laboratory work (25 per cent). Students must complete both laboratory and assignment work satisfactorily to obtain a pass
Prescribed texts:
* Note that CONTACT, PRESCRIBEDTEXTS, SEMESTER differs from the maintainer's version above. A log of variations is available.
3. Physics, Faculty of Educ(Parkville) (v5, p157) : Next:640-161 | Prev:640-141
4. First Year Engineering, Faculty of Engineering (v4, p87) : Prev:640-141
See additional details under the Physics subject above.
* Note that TITLE differs from the maintainer's version above. A log of variations is available.
4. First Year Engineering, Faculty of Engineering (v4, p87) : Prev:640-141
Status: Official 1996 Date created: Oct 9 1995 Last modified: Oct 9 1995 Authorised by: Academic Registrar Email enquiries: Course_Information@registrar.unimelb.edu.au
Maintained by: School of Physics, Faculty of Science.
Copyright © University of Melbourne 1995,1996.