| The expected outcome is that the student... |
Supports STCW elements... |
CHAPTER - Introduction - Concept of Stress
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TOPIC - Shearing Stress
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TOPIC - Shearing Stress
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TOPIC - Stress on Oblique Plane
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TOPIC - Factor of Safety
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CHAPTER - Stress and Strain - Axial Loading
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TOPIC - Stress Strain Diagram, Hooke's Law
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TOPIC - Fatigue, Deformation
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TOPIC - Statically Indeterminate Problems
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TOPIC - Thermal Stress
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TOPIC - Poisson's Ratio, Multiaxial Loading
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TOPIC - Shearing Strain
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TOPIC - Stress Concentration
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CHAPTER - Torsion
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TOPIC - Introduction - Stress in Elastic Range
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TOPIC - Angle of Twist
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TOPIC - Statically Indeterminate Shafts
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TOPIC - Design of Transmission Shafts
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TOPIC - Stress Concentration
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CHAPTER - Bending
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31D2.4.2
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TOPIC - Pure Bending
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TOPIC - Introduction - Stresses and Deformation in Elastic Rang
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TOPIC - Stress Concentrations
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TOPIC - Eccentric Loading
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CHAPTER - Transverse Loading
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TOPIC - Introduction - Shear in a Horizontal Plane
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TOPIC - Shearing Stresses
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TOPIC - Shear on an Arbitrary Longitudinal Cut
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TOPIC - Shearing Stresses in Thin Walled Members
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CHAPTER - Transformation of Stress and Strain
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TOPIC - Mohr's Circle for Plane Stress
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TOPIC - Stresses in Thin-Walled Pressure Vessels
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CHAPTER - Design of Beams and Shafts for Strength
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TOPIC - Shear and Bending Moment Diagrams
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TOPIC - Introduction - Design of Prismatic Beams
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TOPIC - Design of Prismatic Beams
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CHAPTER - Deflection of Beams by Integration
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TOPIC - Introduction - Equation of the Elastic Curve
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TOPIC - Superposition
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CHAPTER - Columns
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TOPIC - Introduction - Euler's Formula for Pin-Ended Columns
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TOPIC - Columns with Other End Conditions
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LAB - Strength of Materials Laboratory
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LAB - Materials under shear
- understands the relationship between shear stress, load, shear area, and
observe shear failure
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31A1.1
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LAB - Materials under tension
- understands the relationship between tensile stress, load, shear area,
and observe tensile failure
- develops a stress-strain diagram and determine material propertise such
as modulus of elasticity, ultimate and yield strength
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31A1.1
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LAB - Materials under torsion
- understands the relationship between torque and angular deflection and
geometry for different materials
- determines the modulus of rigidity for various materials
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31A1.1
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LAB - Beam Deflection
- measures the relation between load, deflection and geometry for simply
supported rectangular beams
- compares experimental results with beam theory
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31A1.1
31D2.4.2
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LAB - Strain
- uses a strain gage to determine stress in cantilevered rectangular beams
subjected to bending
- calculates Poisson's ratio and Young's Modulus and compares with
theoretical results
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31A1.1
31D2.4.2
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LAB - Buckling
- investigates the buckling mode of failure and the relationship between
load, constraints, geometry and failure load
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31A1.1
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EXAM - Midterm Exam
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EXAM - Final Exam
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