Year
2019
Units
4.5
Contact
2 x 50-minute lectures weekly
1 x 2-hour workshop weekly
5 x 3-hour laboratories per semester
2 x 3-hour computer labs per semester
1 x 1.5-hour on-line exercises weekly
1 x 3-hour project work once-only
Enrolment not permitted
1 of PHYS1101, PHYS1205 has been successfully completed
Assumed knowledge
Basic non-calculus based mathematical skills (algebra, trigenometry, geometry, quadratic equations etc)
Assessment
Laboratory Workbook, Mastering Physics (Online Quizzes), Examination
Topic description
This topic provides an introduction to Physics with an emphasis on applications in the Heatlh Sciences (Medicine, Optometry, etc.). The topic material covers the following basic areas of physical phenomena.

  1. Motion, Forces, and Energy: measurement, vectors, kinematics (displacement, velocity, acceleration, gravity, projectile motion), dynamics (force, Newton's Laws, free-body diagrams, static equilibrium), work and energy
  2. Fluids: Density, Pressure, Archimedes' Principle, surface tension, capillarity, Bernoulli's equation, Torricelli's therorem, viscosity, Poiseuille's equation.
  3. Oscillations and Waves: Hooke's law, simple harmonic motion, pendulum, forced oscillations, resonance, wave superposition, reflection, transmission, interference, standing waves
  4. Sound: decibels, beats, Doppler Effect, ultrasound
  5. Light: nature of light, reflection, refraction, sprectrum, dispersion, plane and spherical mirrors, lenses, Gaussain optics, Interference, Diffraction
  6. Electromagnectism: charge, Coulomb's Law, electric field, electic potential, electric current, magnetic field, Lorentz force, electric motor, electromagnetic waves
  7. Quantum Phenomena: Blackbody radiation, Planck's hypothesis, photoelectric efftect, photons, Compton effect, pair production, wave nature of matter, Bohr model, atomic spectra
Educational aims
The aims of this topic are;

  1. To teach students the basic physics principles and techniques important for the understanding of a broad range of physical phenomena in the Health Sciences
  2. To develop problem-solving skills
  3. To develop laboratory skills
  4. To encourage critical analysis
Expected learning outcomes
At the completion of this topic, students are expected to be able to:

  1. Demonstrate an understanding of the physics concepts underlying the material discussed in the topic
  2. Develop models to apply to physical phenomena in the Health Sciences, and express these in the language of mathematics
  3. Recognise the strengths and limitations of models used to describe physical phenomena
  4. Solve selected problems, and interpret and critically analyse the results obtained
  5. Design and perform laboratory investigations, and compare results to predictions of an appropriate model
  6. Communicate their physics knowledge effectively