Academic Calendar - Fisheries and Marine Institute - Memorial ...
Academic Calendar - Fisheries and Marine Institute - Memorial ...
Academic Calendar - Fisheries and Marine Institute - Memorial ...
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COURSE DESCRIPTIONS<br />
Prerequisites - MREK 3106 (<strong>Marine</strong> Engineering Knowledge III)<br />
Duration - 13 weeks<br />
Lectures - 5 hours/week = 65 hours total<br />
MREK 3205 (<strong>Marine</strong> Engineering Knowledge V)<br />
This course consists of Level 1 Propulsion Plant Propulsion<br />
Simulator course content <strong>and</strong> general engineering knowledge.<br />
Introduction to Vibration; Sewage Plant <strong>and</strong> Pollution;<br />
Maintenance; Confined Space Entry; Deck Machinery; Exhaust<br />
Emissions; Oil Pollution Prevention Regulations; Propulsion Plant<br />
Simulator Course, Level 1<br />
Prerequisite - MREK 3204 (<strong>Marine</strong> Engineering Knowledge IV)<br />
Duration - 13 weeks<br />
Lectures - 4 hours/week for 13 weeks = 52 hours total<br />
Laboratories - 4 hours/week for 13 weeks = 52 hours total<br />
MTPR 1200 (Materials <strong>and</strong> Processes)<br />
The purpose of this course is to provide students with<br />
knowledge of the behavior <strong>and</strong> characteristics of common<br />
engineering materials <strong>and</strong> give them an underst<strong>and</strong>ing of basic<br />
industrial processes. This will enable the students to select<br />
suitable materials <strong>and</strong> fabrication methods for the design <strong>and</strong><br />
manufacture of parts to ensure successful service. The course<br />
also introduces the analysis of stress in load-bearing structural<br />
members. The concepts of stress, strain <strong>and</strong> elasticity are<br />
applied to elementary systems of normal, shear, <strong>and</strong> torsional<br />
stress in order to give students an underst<strong>and</strong>ing of one of the<br />
fundamental building blocks upon which all engineering designs<br />
are based.<br />
Structure of Materials; Physical <strong>and</strong> Mechanical Properties of<br />
Materials; Phase Diagrams; Non-ferrous Metals; Heat Treating<br />
Steels; Corrosion; Plastics; Ceramics; Basic Stress Systems;<br />
Torsional Shearing Stress<br />
Prerequisite - PHYS 1102 (Physics); MATH 1102 (Pre-Calculus)<br />
Duration - 13 weeks<br />
Lectures - 4 hours per week = 52 hours total<br />
Laboratories - 2 hours every second week = 12 hours total<br />
MTPR 2100 (Strength of Materials)<br />
This course is an introduction to the analysis of stresses in load<br />
bearing structural members. Concepts of stress, strain <strong>and</strong><br />
elasticity are applied to elementary systems of normal, shear <strong>and</strong><br />
bending stress in order to give students an underst<strong>and</strong>ing of one<br />
of the fundamental building blocks upon which all engineering<br />
designs are based.<br />
Basic Stress Systems; Strain <strong>and</strong> Elasticity; Mechanical<br />
Properties of Materials; Shear Force <strong>and</strong> Bending Moments;<br />
Stress Due to Bending; Torsional Shearing Stress; Statically<br />
Indeterminate Systems<br />
Prerequisites - MATH 1101 (Introduction to Calculus);<br />
MECH 2102 (Mechanics)<br />
MTPR 2101 (Strength of Materials)<br />
This course is an introduction to the analysis of stresses in load<br />
bearing structural members. Concepts of stress, strain <strong>and</strong><br />
elasticity are applied to elementary systems of normal, shear <strong>and</strong><br />
bending stress in order to give students an underst<strong>and</strong>ing of one<br />
of the fundamental building blocks upon which all engineering<br />
designs are based.<br />
Basic Stress Systems; Strain <strong>and</strong> Elasticity; Mechanical<br />
Properties of Materials; Shear Force <strong>and</strong> Bending Moments;<br />
Stress Due to Bending; Torsional Shearing Stress; Combined<br />
Bending <strong>and</strong> Direct Stress; Deflection of Beams<br />
Co-requisites - MATH 1103 (Introduction to Calculus) or MATH<br />
1200 (Calculus); MECH 1100 (Mechanics) or MECH 1101<br />
(Mechanics)<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week<br />
Laboratories - 1 hour/week<br />
MTPR 2103 (Materials <strong>and</strong> Processes)<br />
The purpose of this course is to provide students with the<br />
knowledge of the behaviour <strong>and</strong> characteristics of common<br />
engineering materials <strong>and</strong> give them an underst<strong>and</strong>ing of<br />
basic industrial processes. This will enable students to select<br />
suitable materials <strong>and</strong> fabrication methods for the design <strong>and</strong><br />
manufacture of parts to ensure successful service.<br />
Production of Steel <strong>and</strong> Other Metals; Identification of Metals;<br />
Physical <strong>and</strong> Mechanical Properties of Metals; Structure of<br />
Metals; Phase Diagrams; Heat Treating; Plastics; Adhesives,<br />
Ceramics <strong>and</strong> Wood<br />
Duration - 13 weeks<br />
Lectures - 3 hour/week<br />
Laboratories - 2 hours/week<br />
MTPR 2104 (Materials <strong>and</strong> Processes)<br />
This course provides students with knowledge about the<br />
behaviour <strong>and</strong> characteristics of common engineering materials<br />
<strong>and</strong> gives them an underst<strong>and</strong>ing of basic industrial processes.<br />
This background will enable students to select suitable materials<br />
<strong>and</strong> fabrication methods for the design <strong>and</strong> manufacture of parts<br />
to ensure successful service.<br />
Production of Steel <strong>and</strong> Other Metals; Identification of Metals;<br />
Physical <strong>and</strong> Mechanical Properties of Metals; Structure of<br />
Metals; Phase Diagrams; Heat Treating; Plastics; Adhesive,<br />
Ceramics, <strong>and</strong> Wood<br />
Prerequisite - CHEM 1100 (Chemistry)<br />
Duration - 5 weeks<br />
Lectures - 6 hours/week = 30 hours total<br />
Laboratories - 2 hours/week = 10 hours total<br />
OR<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week = 39 hours total<br />
Laboratories - 2 hours/week for 5 weeks = 10 hours total<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week<br />
Laboratories - 1 hour/week<br />
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