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PHYS315

Computational Biophysics

A lecture and computer laboratory paper on computational neuroscience and biophysics. Topics include differential equations, Euler and Runge-Kutta integration, limit cycles, action potentials, hysteresis and memory, stability, noise simulation, and root finding. The programming language is MATLAB.

Computational Biophysics - PHYS315 (2017)

PHYS315 - 17A (HAM) & 17T (HAM)

20.0 Points

A lecture and computer laboratory paper on computational neuroscience and biophysics. Topics include differential equations, Euler and Runge-Kutta integration, limit cycles, action potentials, hysteresis and memory, stability, noise simulation, and root finding. The programming language is MATLAB.

Prerequisite(s): PHYS103 and two of ENGG283, ENGG284, ENGG285, ENGG287, MATH251, MATH253 or MATH255

Restriction(s): PHYS516

Internal assessment/examination ratio: 1:0

Timetabled Lectures for PHYS315

Day StartEndRoomDates
Mon12:00 PM1:00 PMI.1.08Feb 27 - Jun 4
Wed12:00 PM1:00 PMJ.2.18Feb 27 - Jun 4

NB:There may be other timetabled events for this paper such as tutorials or workshops.
Visit the online timetable for PHYS315 for more details

Indicative Fees for PHYS315

Occurrence Domestic International
 Tuition Resource 
17A (HAM) $1131 $0 $4948
17T (HAM) $1131 $0 $4948
You will be sent an enrolment agreement which will confirm your fees.
Tuition fees shown above are indicative only and may change. There are additional fees and charges related to enrolment - please see the Table of Fees and Charges for more information.

Paper Outlines for PHYS315

The following paper outlines are available for PHYS315. If your paper occurrence is not listed contact the Faculty or School office.

Paper details current as of: 11 April 2017 4:51pm
Indicative fees current as of: 28 April 2017 4:30am