Course Overview
This course covers the principles of applied mechanics and includes the following topics: basic dynamics of the engine mechanism, complete balancing of reciprocating machinery, simple harmonic motion and vibrations, bending of a beam, stress due to bending, strength, and stiffness of shafting, power transmitted by shafts and bolts, restricted thermal expansion, hydraulics and the flow of a fluid through pipes and orifices.
Prerequisite(s)
- Transport Canada, STCW Fourth-Class Motor Marine Engineering Certificate of Competency, and a minimum of two months of sea time as engineer officer of the watch.
Credits
4.0
- Not offered this term
- This course is not offered this term. Notify me to receive email notifications when the course opens for registration next term.
Learning Outcomes
Upon successful completion of this course, the student will be able to:
- Solve problems related to the complete balancing of reciprocating machinery.
- Solve problems involving simple harmonic motion and vibrations.
- Calculate the stress in metal bars due to restricted thermal expansion.
- Calculate stresses set up in compound bars.
- Calculate hoop and axial stress in pressure vessels.
- Calculate the stress in the rim of a rotating flywheel.
- Derive the fundamental torsion equation and solve problems related to the twisting of shafts, using the fundamental torsion equation.
- Calculate torque and power transmitted through shafts and coupling bolts using the torsion equation.
- Solve problems involving Rapson's slide.
- Calculate the volume flow of fluids through valves, pipes, and orifices based on the area of the orifice, flow velocity, mass flow rate, and flow coefficients.
Effective as of Winter 2026
Related Programs
Advanced Applied Mechanics (MEOC 5020) is offered as a part of the following programs:
School of Transportation
- Marine Engineering
Advanced Diploma Full-time
Programs and courses are subject to change without notice. Find out more about BCIT course cancellations.