Search Course Outline

Search

Showing 25 course outlines from 9861 matches

526

AUDIOL 715

: Physics and Acoustics for Audiology
2025 Semester One (1253)
The basic physics of sound; and instrumentation and the principles of digital signal processing involved in audiological research. Topics include: the physics of sound waves, room acoustics, the measurement of reverberation time; the nature of acoustic impedance; the nature of filters and amplifiers, acoustics of speech, calibration.
Subject: Audiology
No pre-requisites or restrictions
527

AUDIOL 715

: Physics and Acoustics for Audiology
2024 Semester One (1243)
The basic physics of sound; and instrumentation and the principles of digital signal processing involved in audiological research. Topics include: the physics of sound waves, room acoustics, the measurement of reverberation time; the nature of acoustic impedance; the nature of filters and amplifiers, acoustics of speech, calibration.
Subject: Audiology
No pre-requisites or restrictions
528

AUDIOL 715

: Physics and Acoustics for Audiology
2023 Semester One (1233)
The basic physics of sound; and instrumentation and the principles of digital signal processing involved in audiological research. Topics include: the physics of sound waves, room acoustics, the measurement of reverberation time; the nature of acoustic impedance; the nature of filters and amplifiers, acoustics of speech, calibration.
Subject: Audiology
No pre-requisites or restrictions
529

AUDIOL 715

: Physics and Acoustics for Audiology
2022 Semester One (1223)
The basic physics of sound; and instrumentation and the principles of digital signal processing involved in audiological research. Topics include: the physics of sound waves, room acoustics, the measurement of reverberation time; the nature of acoustic impedance; the nature of filters and amplifiers, acoustics of speech, calibration.
Subject: Audiology
No pre-requisites or restrictions
530

AUDIOL 715

: Physics and Acoustics for Audiology
2020 Semester One (1203)
The basic physics of sound; and instrumentation and the principles of digital signal processing involved in audiological research. Topics include: the physics of sound waves, room acoustics, the measurement of reverberation time; the nature of acoustic impedance; the nature of filters and amplifiers, acoustics of speech, calibration.
Subject: Audiology
No pre-requisites or restrictions
531

AUDIOL 716A

: Clinical Practicum I
2025 Semester One (1253)
Introduces the clinical practice of Audiology. Topics include communication skills; ethics; cultural issues; and the clinical practice of audiology, including counselling, understanding the effects of aging, tinnitus and hyperacusis management. Students will obtain the skills and knowledge to take a clinical history and to perform a basic audiometric assessment of adults and children. Particular emphasis is placed on critical evaluation and independent learning. Involves clinical work including a nine week practicum during the summer semester between Part I and Part II.
Subject: Audiology
To complete this course students must enrol in AUDIOL 716 A and B
532

AUDIOL 716A

: Clinical Practicum I
2024 Semester One (1243)
Introduces the clinical practice of Audiology. Topics include communication skills; ethics; cultural issues; and the clinical practice of audiology, including counselling, understanding the effects of aging, tinnitus and hyperacusis management. Students will obtain the skills and knowledge to take a clinical history and to perform a basic audiometric assessment of adults and children. Particular emphasis is placed on critical evaluation and independent learning. Involves clinical work including a nine week practicum during the summer semester between Part I and Part II.
Subject: Audiology
To complete this course students must enrol in AUDIOL 716 A and B
533

AUDIOL 716A

: Clinical Practicum I
2023 Semester One (1233)
Introduces the clinical practice of Audiology. Topics include communication skills; ethics; cultural issues; and the clinical practice of audiology, including counselling, understanding the effects of aging, tinnitus and hyperacusis management. Students will obtain the skills and knowledge to take a clinical history and to perform a basic audiometric assessment of adults and children. Particular emphasis is placed on critical evaluation and independent learning. Involves clinical work including a nine week practicum during the summer semester between Part I and Part II.
Subject: Audiology
To complete this course students must enrol in AUDIOL 716 A and B
534

AUDIOL 716A

: Clinical Practicum I
2022 Semester One (1223)
Introduces the clinical practice of Audiology. Topics include communication skills; ethics; cultural issues; and the clinical practice of audiology, including counselling, understanding the effects of aging, tinnitus and hyperacusis management. Students will obtain the skills and knowledge to take a clinical history and to perform a basic audiometric assessment of adults and children. Particular emphasis is placed on critical evaluation and independent learning. Involves clinical work including a nine week practicum during the summer semester between Part I and Part II.
Subject: Audiology
To complete this course students must enrol in AUDIOL 716 A and B
535

AUDIOL 716A

: Clinical Practicum I
2021 Semester One (1213)
Introduces the clinical practice of Audiology. Topics include communication skills; ethics; cultural issues; and the clinical practice of audiology, including counselling, understanding the effects of aging, tinnitus and hyperacusis management. Students will obtain the skills and knowledge to take a clinical history and to perform a basic audiometric assessment of adults and children. Particular emphasis is placed on critical evaluation and independent learning. Involves clinical work including a nine week practicum during the summer semester between Part I and Part II.
Subject: Audiology
To complete this course students must enrol in AUDIOL 716 A and B
536

AUDIOL 718A

: Clinical Practicum II
2025 Semester One (1253)
Clinical Audiology includes a scope of practice in evidence-based diagnostic and rehabilitative practices for the lifespan population. Topics include behavioural and objective measures of hearing for all ages, diagnosis and management of children with hearing loss, advanced topics in tinnitus, balance and hearing technologies. Interactive lectures, clinical placements, and independent learning contribute to the curriculum.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
537

AUDIOL 718A

: Clinical Practicum II
2024 Semester One (1243)
The advanced clinical practice of audiology with particular emphasis on paediatric audiology and case management of children and adults. Topics include assessment of hearing in the paediatric population, including clinical electrophysiology, development of speech, auditory processing disorders and management of hearing loss in children. Particular emphasis is placed on critical evaluation and independent learning. The course involves substantial clinical work.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
538

AUDIOL 718A

: Clinical Practicum II
2023 Semester One (1233)
The advanced clinical practice of audiology with particular emphasis on paediatric audiology and case management of children and adults. Topics include assessment of hearing in the paediatric population, including clinical electrophysiology, development of speech, auditory processing disorders and management of hearing loss in children. Particular emphasis is placed on critical evaluation and independent learning. The course involves substantial clinical work.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
539

AUDIOL 718A

: Clinical Practicum II
2022 Semester One (1223)
The advanced clinical practice of audiology with particular emphasis on paediatric audiology and case management of children and adults. Topics include assessment of hearing in the paediatric population, including clinical electrophysiology, development of speech, auditory processing disorders and management of hearing loss in children. Particular emphasis is placed on critical evaluation and independent learning. The course involves substantial clinical work.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
540

AUDIOL 718A

: Clinical Practicum II
2021 Semester One (1213)
The advanced clinical practice of audiology with particular emphasis on paediatric audiology and case management of children and adults. Topics include assessment of hearing in the paediatric population, including clinical electrophysiology, development of speech, auditory processing disorders and management of hearing loss in children. Particular emphasis is placed on critical evaluation and independent learning. The course involves substantial clinical work.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
541

AUDIOL 718A

: Clinical Practicum II
2020 Semester One (1203)
The advanced clinical practice of audiology with particular emphasis on paediatric audiology and case management of children and adults. Topics include assessment of hearing in the paediatric population, including clinical electrophysiology, development of speech, auditory processing disorders and management of hearing loss in children. Particular emphasis is placed on critical evaluation and independent learning. The course involves substantial clinical work.
Subject: Audiology
Prerequisite: AUDIOL 716 To complete this course students must enrol in AUDIOL 718 A and B
542

BIOENG 721

: Physics of Physiology
2025 Semester One (1253)
Develops skills in creating and using physics-based mathematical models of physiological processes. Focuses on using integrative and hierarchical modelling approaches to scale models from the protein function level to cell and tissue function and then to models of organ physiology and systems physiology at the whole-body level.
Subject: Bioengineering
No pre-requisites or restrictions
543

BIOENG 741

: The Bioengineering Toolbox
2025 Semester One (1253)
Principles and practice of techniques used to develop, construct and use devices and systems for conducting precise measurements in bioengineering research. Application of modern tools for extracting useful biological or physiological information directly from the measured data.
Subject: Bioengineering
No pre-requisites or restrictions
544

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2025 Semester One (1253)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or a B+ or higher in MATHS 108 or 110, or a B+ or higher in MATHS 120 and 130
545

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2024 Semester One (1243)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or a B+ or higher in MATHS 108 or 110, or a B+ or higher in MATHS 120 and 130
546

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2023 Semester One (1233)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or a B+ or higher in MATHS 108 or 110, or a B+ or higher in MATHS 120 and 130
547

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2022 Semester One (1223)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or B+ or higher in MATHS 108 or 110 or 150 or 153, or B+ or higher in MATHS 120 and 130
548

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2021 Semester One (1213)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or B+ or higher in MATHS 108 or 110 or 150 or 153, or B+ or higher in MATHS 120 and 130
549

BIOMENG 221

: Mechanics of Engineered and Biological Materials
2020 Semester One (1203)
Introduction to the laws of conservation of mass, linear momentum, angular momentum and energy and their application to engineering problems. Topics include control volume analysis, fluid statics, Bernoulli’s equation, heat conduction, diffusion, linear elasticity, stresses and strains specific to direct and torsional loading, material constitutive relationships (including anisotropy, nonlinearity, and viscoelasticity), axial and transverse loading, and pressure loading of engineering structures and biomaterials.
Subject: Biomedical Engineering
Prerequisite: ENGGEN 150, or ENGSCI 111, or B+ or higher in MATHS 108 or 110 or 150 or 153, or B+ or higher in MATHS 120 and 130
550

BIOMENG 299

: Workshop Practice
2025 Semester One (1253)
Subject: Biomedical Engineering
Restriction: ENGGEN 299