Biomedical Engineering

After admission has been granted, a selection of the courses below will allow students to complete a certificate, diploma or advanced diploma. A minimum of ten subjects are required for a certificate, for a diploma at least twenty subject and advanced diploma a minimum of thirty subjects are required. In most cases, completing between thirty to fourty subjects will give students all the academic equivalency to apply for credit transfer into a degree program provided they have the correct subject balance at the lower and upper degree levels. In some cases the completion of a thesis/will be a requirement also at the bachelor degree level. It is a specific requirement for master and doctoral degrees. Details will be provided as well as instructions to write your research work.

AWARD: CERTIFICATE

Please select any ten subjects from the list below

AWARD: DIPLOMA

In addition to the certificate (ten subjects minimum), please select any ten subjects from the list below

AWARD: ADVANCED DIPLOMA

In addition to the certificate and diploma (20 subjects minimum), please select any ten subjects from the list below

English I (English Composition)

English II (Composition in Business)

Literature of the Western World I

Logical Reasoning

Engineering Chemistry

Engineering Mathematics (Calculus I)

Engineering Mathematics (Calculus II)

Applied Computer Programming (Biomedical Matlab)

Mechanics

Applied Mathematics (Linear Algebra)

Engineering Drawing

Engineering Physics (biomedical)

Engineering Design Philosophy (biomedical)

Strength of Materials

Materials Science

Computer Programming (Programming in C & C++)

Computer Aided Engineering

Control Systems

Electrotechnics (Circuit Analysis)

Probability Theory for Biomedical Engineering

Understanding the Human Machine

Modeling and Simulation

Computer Systems

Electronics I

Introduction to Biomedical Engineering

Introduction to Biomedical Electronic Applications

Radiation Physics for Medical Physicists

Biomedicine for Biotechnology

Biomedical Instrumentation

Biomechanics Principles and Applications

Medical Devices and Instrumentation

Engineering and Manufacturing of Biotechnology

Laser Tissue Interactions Fundamentals & Applications

Metabolic Engineering

Nano Biotechnology

Sensory Organ Replacement and Repair

Tissue Engineering

Artificial Organs

Bio-photonics Optical Science and Engineering

Bio-solids Engineering

Bio-reaction Engineering Principles

Bio-signal and Bio-medical Image Processing

Dynamics of the Vascular System

Physics of Coronory Blood Flow

Signal Processing of Random Physiological Signals

Engineering Management

Engineering Economy

Research Methods

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