Clayton First semester 2008 (Day)
Principles of force and movement applied to skeletal structures, human movement and sport, centrifugation, oscillations, effects on living systems. Bio-electricity including nerve conduction, membrane potential, defibrillation, ECG , electrical measurements in bio-systems. Energy production and transport, pressure, diffusion and osmosis. Fluid flow and the cardiovascular system and heat flow in the body. Optical properties of biological and useful materials, refraction, reflection, polarisation, with particular reference to human vision and the microscope. X-rays and nuclear radiations: effects on living matter, diagnostic and therapeutic uses.
On successful completion of this unit students should be able to explain and apply relevant physics principles to human, biomedical and biosphere contexts; and describe and model situations involving body systems, forces and materials for support and movement, heat and energy transport, electrical behaviour, basic electrical measurements, optical systems and instruments; develop simple physical models and apply these to problem solving; carry out reliable measurements, analyse data, estimate uncertainties, interpret physical phenomena and present scientific information in written reports.
Examination (3 hours): 50%
Practical work: 28%
Tests/assignments 22%
Students must achieve a pass mark in the practical work to achieve an overall pass grade.
Three 1-hour lectures and one 3-hour practical class per week