Academic Calendar - Fisheries and Marine Institute - Memorial ...

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COURSE DESCRIPTIONS Prerequisites - MREK 3106 (Marine Engineering Knowledge III) Duration - 13 weeks Lectures - 5 hours/week = 65 hours total MREK 3205 (Marine Engineering Knowledge V) This course consists of Level 1 Propulsion Plant Propulsion Simulator course content and general engineering knowledge. Introduction to Vibration; Sewage Plant and Pollution; Maintenance; Confined Space Entry; Deck Machinery; Exhaust Emissions; Oil Pollution Prevention Regulations; Propulsion Plant Simulator Course, Level 1 Prerequisite - MREK 3204 (Marine Engineering Knowledge IV) Duration - 13 weeks Lectures - 4 hours/week for 13 weeks = 52 hours total Laboratories - 4 hours/week for 13 weeks = 52 hours total MTPR 1200 (Materials and Processes) The purpose of this course is to provide students with knowledge of the behavior and characteristics of common engineering materials and give them an understanding of basic industrial processes. This will enable the students to select suitable materials and fabrication methods for the design and manufacture of parts to ensure successful service. The course also introduces the analysis of stress in load-bearing structural members. The concepts of stress, strain and elasticity are applied to elementary systems of normal, shear, and torsional stress in order to give students an understanding of one of the fundamental building blocks upon which all engineering designs are based. Structure of Materials; Physical and Mechanical Properties of Materials; Phase Diagrams; Non-ferrous Metals; Heat Treating Steels; Corrosion; Plastics; Ceramics; Basic Stress Systems; Torsional Shearing Stress Prerequisite - PHYS 1102 (Physics); MATH 1102 (Pre-Calculus) Duration - 13 weeks Lectures - 4 hours per week = 52 hours total Laboratories - 2 hours every second week = 12 hours total MTPR 2100 (Strength of Materials) This course is an introduction to the analysis of stresses in load bearing structural members. Concepts of stress, strain and elasticity are applied to elementary systems of normal, shear and bending stress in order to give students an understanding of one of the fundamental building blocks upon which all engineering designs are based. Basic Stress Systems; Strain and Elasticity; Mechanical Properties of Materials; Shear Force and Bending Moments; Stress Due to Bending; Torsional Shearing Stress; Statically Indeterminate Systems Prerequisites - MATH 1101 (Introduction to Calculus); MECH 2102 (Mechanics) MTPR 2101 (Strength of Materials) This course is an introduction to the analysis of stresses in load bearing structural members. Concepts of stress, strain and elasticity are applied to elementary systems of normal, shear and bending stress in order to give students an understanding of one of the fundamental building blocks upon which all engineering designs are based. Basic Stress Systems; Strain and Elasticity; Mechanical Properties of Materials; Shear Force and Bending Moments; Stress Due to Bending; Torsional Shearing Stress; Combined Bending and Direct Stress; Deflection of Beams Co-requisites - MATH 1103 (Introduction to Calculus) or MATH 1200 (Calculus); MECH 1100 (Mechanics) or MECH 1101 (Mechanics) Duration - 13 weeks Lectures - 3 hours/week Laboratories - 1 hour/week MTPR 2103 (Materials and Processes) The purpose of this course is to provide students with the knowledge of the behaviour and characteristics of common engineering materials and give them an understanding of basic industrial processes. This will enable students to select suitable materials and fabrication methods for the design and manufacture of parts to ensure successful service. Production of Steel and Other Metals; Identification of Metals; Physical and Mechanical Properties of Metals; Structure of Metals; Phase Diagrams; Heat Treating; Plastics; Adhesives, Ceramics and Wood Duration - 13 weeks Lectures - 3 hour/week Laboratories - 2 hours/week MTPR 2104 (Materials and Processes) This course provides students with knowledge about the behaviour and characteristics of common engineering materials and gives them an understanding of basic industrial processes. This background will enable students to select suitable materials and fabrication methods for the design and manufacture of parts to ensure successful service. Production of Steel and Other Metals; Identification of Metals; Physical and Mechanical Properties of Metals; Structure of Metals; Phase Diagrams; Heat Treating; Plastics; Adhesive, Ceramics, and Wood Prerequisite - CHEM 1100 (Chemistry) Duration - 5 weeks Lectures - 6 hours/week = 30 hours total Laboratories - 2 hours/week = 10 hours total OR Duration - 13 weeks Lectures - 3 hours/week = 39 hours total Laboratories - 2 hours/week for 5 weeks = 10 hours total Duration - 13 weeks Lectures - 3 hours/week Laboratories - 1 hour/week 178
COURSE DESCRIPTIONS MTPR 2108 (Strength of Materials) This course is an introduction to the analysis of stresses in load bearing structural members. Concepts of stress, strain and elasticity are applied to elementary systems of normal, shear and bending stress in order to give students an understanding of one of the fundamental building blocks upon which all engineering designs are based. Basic Stress Systems; Strain and Elasticity; Mechanical Properties of Materials; Shear Force and Bending Moments; Stress due to Bending; Torsional Shearing Stress; Statically Indeterminate Systems Prerequisite - MATH 1101 (Introduction to Calculus); MECH2110 (Mechanics) Duration - 13 weeks total, excluding final examination Lectures - 3 hours/week = 39 hours total Laboratories - 1 hour/ week = 13 hours total MTPR 2208 (Materials and Processes) The purpose of this course is to provide students with the knowledge of the behaviour and characteristics of common engineering materials and give them an understanding of basic industrial processes. This will enable students to select suitable materials and fabrication methods for the design and manufacture of parts to ensure successful service. Production of Steel and other Metals; Identification of Metals; Physical and Mechanical Properties of Metals; Structure of Metals; Phase Diagrams; Heat Treating; Inspection and Testing of Materials; Corrosion; Plastics; Adhesives, Ceramics, and Composites Prerequisites - CHEM 1200 (Chemistry); WKPR 2115 (Mechanical Workshop) Duration - 13 weeks Lectures - 3 hours per week Laboratories - 2 hours per week MTPR 3100 (Strength of Materials) This second Strength of Materials course expands on previously studied concepts of simple stress, strain and elasticity, and provides a basis for elementary calculations in engineering design. Strain Energy, Impact Loads; Combined Bending and Direct Stresses; Bolted, Riveted and Welded Joints; Deflection of Beams; Columns; Complex Stress and Strain Systems. Prerequisite - MTPR 2100 (Strength of Materials) or equivalent Duration - 13 weeks Lectures - 3 hours/week Laboratories - 2 hours/week MTPR 3104 (Strength of Materials) This second Strength of Materials course expands on previously studied concepts of simple stress, strain and elasticity, and provides a basis for elementary calculations in engineering design. Strain Energy, Impact Loads; Combined Bending and Direct Stresses; Bolted, Riveted and Welded Joints; Deflection of Beams; Columns; Complex Stress and Strain Systems Prerequisite - MTPR 2108 (Strength of Materials) Duration - 13 weeks Lectures - 3 hours/week = 39 hours Laboratories - 2 hour/week = 26 hours MTPR 3201 (Strength of Materials) This advanced course in Strength of Materials extends on the application of fundamental principles presented in Strength of Materials 2100 and Strength of Materials 3100. This course is intended to familiarize students with elements of structural design and machine component design often observed aboard ships. Calculation Sheets; Design Morphology; Evaluation of Criteria and Constraints; Problem Analysis; Design Considerations; Codes and Standards; Precision and Rounding of Dimensions Prerequisite - MTPR 3100 (Strength of Materials) Duration - 5 weeks Lectures - 6 hours/week NARC 1101 (Ship Hull Geometry) This course will develop an ability to define the complex geometry of a ship’s hull form with emphasis on practical draughting skills required to attain a fair and accurate form. Lines Plan Interpretation; Terminology and Form Coefficients; Hull Forms; Draughting Techniques; Lifting Hull Lines Prerequisites - PHYS 1200 (Physics); MATH 1101 (Introduction to Calculus); ENGR 1103 (Engineering Graphics); NARC 1103 (Ships & Shipping) Duration - 5 weeks Lectures - 4 hours/week = 20 hours total Laboratories - 6 hours/week = 30 hours total NARC 1102 (Ship Structural Geometry) This is an introductory course to ship structures designed to familiarize students with structural arrangements and nomenclature and to improve their computer aided drafting ability. Framing Systems; Bottom Structure; Side Structure; Deck Structure; Bulkhead Structure; Shell Structure; Fore End Structure; Aft End Structure Prerequisite - MATH 1100 (Pre-Calculus); ENGR 1103 (Engineering Graphics); ENSY 1202 (Introduction to MESD) Co-requisite - ENGR 1201 (Introduction to AutoCAD) Duration - 13 weeks Lectures - 2 hours/week Laboratories - 2 hours/week NARC 1103 (Ships and Shipping) This is a first level course designed to introduce the basic elements of ship design. Ships’ missions are related to vessel dimensions, general layout, hull form, structure and stability characteristics. Emphasis is placed on the interpretation of ships’ drawings including the lines plan, general arrangement and profile and decks. Purpose of Ships; Primary Design Criteria; The Ship Design Process; Loads On A Ship; Structural Framing Systems; Ships Types and Structure; Engineering Fundamentals; Buoyancy and Weight; Transverse Stability; Ship Types and Stability 179
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FISHERIES AND MARINE INSTITUTE OF M
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TABLE OF CONTENTS MISSION To foster
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FISHERIES AND MARINE INSTITUTE OVER
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DIARY FOR ACADEMIC YEAR 2013-2014 N
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DIARY FOR ACADEMIC YEAR 2013-2014 M
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DIARY FOR ACADEMIC YEAR 2013-2014 J
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MARINE INSTITUTE GOVERNANCE MARINE
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MARINE INSTITUTE GOVERNANCE ACADEMI
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ADMISSIONS, ACADEMIC POLICIES, AND
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ADMISSION TO THE MARINE INSTITUTE 2
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ACADEMIC POLICIES AND REGULATIONS 3
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ACADEMIC POLICIES AND REGULATIONS N
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ACADEMIC POLICIES AND REGULATIONS i
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ABC’S OF ON-CAMPUS SERVICES BOOKS
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ABC’S OF ON-CAMPUS SERVICES • T
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FEES AND FINANCIAL INFORMATION The
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FEES AND FINANCIAL INFORMATION Stud
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SCHOLARSHIPS AND AWARDS The Marine
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SCHOLARSHIPS AND AWARDS Randy Ember
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SCHOLARSHIPS AND AWARDS a program i
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SCHOLARSHIPS AND AWARDS new matricu
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UNDERGRADUATE DEGREE PROGRAMS DESCR
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Table 1: Bachelor of Maritime Studi
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UNDERGRADUATE DEGREE PROGRAMS WAIVE
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MASTER OF MARINE STUDIES (FISHERIES
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MASTER OF MARINE STUDIES (FISHERIES
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MASTER OF MARITIME MANAGEMENT MSTM
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MASTER OF TECHNOLOGY MANAGEMENT MST
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JOINT DIPLOMA OF TECHNOLOGY/BACHELO
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POST GRADUATE CERTIFICATE - FOOD SA
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POST GRADUATE CERTIFICATE - QUALITY
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ADVANCED DIPLOMA - SUSTAINABLE AQUA
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ADVANCED DIPLOMA - INTEGRATED COAST
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ADVANCED DIPLOMA - WATER QUALITY PR
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DIPLOMA OF TECHNOLOGY - MARINE ENGI
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DIPLOMA OF TECHNOLOGY - MARINE ENVI
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DIPLOMA OF TECHNOLOGY - MARINE ENVI
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DIPLOMA OF TECHNOLOGY - MARINE ENGI
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DIPLOMA OF TECHNOLOGY - NAUTICAL SC
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DIPLOMA OF TECHNOLOGY - NAUTICAL SC
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DIPLOMA OF TECHNOLOGY - NAVAL ARCHI
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TECHNICIAN DIPLOMA - MARINE ENGINEE
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TECHNICIAN DIPLOMA - REMOTELY OPERA
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TECHNICAL CERTIFICATE - AQUACULTURE
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TECHNICAL CERTIFICATE - BRIDGE WATC
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TECHNICAL CERTIFICATE - HARVESTING
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TECHNICAL CERTIFICATE - MARINE DIES
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Page 139 and 140: COURSE DESCRIPTIONS BSMG 1102 (Mana
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Page 153 and 154: COURSE DESCRIPTIONS ELTK 3500 (Mari
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Page 213 and 214: COURSE DESCRIPTIONS Safety - STCW
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