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8361 (v.5) Physics 221


 

Area:

Department of Applied Physics

Credits:

12.5

Contact Hours:

2.0

Lecture:

2 x 1 Hours Weekly

Prerequisite(s):

1737 (v.3) Particles and Waves 101 or any previous version
AND
1744 (v.3) Structure of Matter 102 or any previous version
AND
1745 (v.5) Physical Measurements 102 or any previous version
AND
7063 (v.6) Mathematics 102 or any previous version

Syllabus:

Waves and vibrations - review of simple harmonic motion. Damped simple harmonic motion, non-linear systems. Forced oscillations, transient and steady state terms. Coupled oscillations, normal modes of vibration. Transverse waves, reflection and transmission coefficients. Longitudinal waves. Radiation physics - Detection methods, gas filled detectors. ionisation chamber, proportional counter, GM counter, dead time, quenching. Scintillation counters, semiconductor devices [Ge(Li), Si(Li). Detection efficiency, energy resolution. Spectroscopy, pulse height analysis, nuclear spectroscopy, application to mineral exploration and medical diagnosis. Measurement statistics. Radioanalytical techniques, use of radioactive tracers in medical imaging, industrial processes, biological studies. Non-destructive elemental analysis using, charge particle activation, PIXE, applications to - surface concentration, depth profile analysis. X-ray fluorescence spectrometry, X-ray diffraction Radiation dosimetry. Roentgen, Gray,Sievert, Exposure measurement, free air ionization chamber, Air wall chambers, thermoluminescent dosimetry, radiation hazards, ICRP recommendations.
 

Unit Outcomes:

On successful completion of this unit students will be able to highlight the strong link between physics and mathematics in classical mechanics and have developed a robust problem solving technique suited to multi-layered problems. More specifically, they will be able to explain the principles of gas filled detectors, scintillation detectors and solid state detectors, demonstrate an understanding of pulse height analysis and explain its applications to industrial and medical applications and explain anddescribe the radiation dosimetry terms.

Texts and references listed below are for your information only and current as of September 30, 2003. Some units taught offshore are modified at selected locations. Please check with the unit coordinator for up-to-date information and approved offshore variations to unit information before finalising study and textbook purchases.

Unit References:

Lapp, R. E. and Andrews, H. L., 1972, 'Nuclear Radiation Physics', Pitman, London. Cember, H., 1996, 'Introduction to Health Physics', McGraw Hill, New York. Krane, K. S., 1988, 'Introductory Nuclear Physics', Wiley, New York.

Unit Texts:

Pain, H. J., 41999, 'The Physics of Vibrations and Waves', Wiley, New York. Fowles, G. R. & Cassiday, G. L., 1999, 'Analytical Mechanics', Saunders Publishing, Fort Worth.
 

Unit Assessment Breakdown:

Assignments 20%. Tests 30%. Final Examination 50%.

Field of Education:

 10300 Physics and Astronomy (Narrow Grouping)

HECS Band (if applicable):

2  

Extent to which this unit or thesis utilises online information:

 Informational  

Result Type:

 Grade/Mark


Availability

YearLocationPeriodInternalArea ExternalCentral External
2004Bentley CampusSemester 1Y  

Area
External
refers to external course/units run by the School or Department, offered online or through Web CT, or offered by research.
Central
External
refers to external course/units run through the Curtin Bentley-based Distance Education Area

 
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