# Applied Mechanics 2 MENG 2103

Marine Engineering Course

International Fees

International fees are typically three times the amount of domestic fees. Exact cost will be calculated upon completion of registration.

## Course details

This is a preparatory course for students to write the Transport Canada Applied Mechanics 2 examination paper towards their Transport Canada 2nd Class “Motor” Certificate of Competency. All topics covered in this course are listed in TP 2293E under 27.4 – APPLIED MECHANICS (EXAMINATION CODE: 2APM), and these are: Statics; Forces; Friction; Kinematics; Dynamics; Machines; Stress and strain; Beams; Torsion; Thin shells; Hydrostatics and hydraulics.

### Prerequisite(s)

• 3rd/4th Class Engineering Certificate (steam and/or motor).

16.0

\$1,220.82

### Winter 2024

Below is one offering of MENG 2103 for the Winter 2024 term.

#### CRN 91751

##### Duration

Mon Jan 15 - Mon Mar 11 (8 weeks)

• 8 weeks
• CRN 91751
• Domestic fees \$1220.82
International fees are typically three times the amount of domestic fees.
##### Class meeting times
Dates Days Times Locations
Jan 15 - Mar 11 Mon - Fri 08:30 - 16:00 Marine BMC Rm. 134
##### Instructor

Bhupinder Dhillon

View

\$1220.82

##### Important information
1. International fees are typically three times the amount of domestic fees. Exact cost will be calculated upon completion of registration.
##### Status

Cancelled

This course offering has been cancelled. Please check back next term or subscribe to receive email updates.

## Learning Outcomes

At the end of this course, the student will be able to perform calculations to determine:

• Determine the resultant and equilibrant of a system of concurrent coplanar forces.
• Determine the centre of gravity of common geometrical shapes.
• Calculate work done at uniform speed up the plane.
• Determine coefficient of friction, friction angle, energy, and power loss due to friction in simple bearings.
• Solve problems of linear motion.
• Solve problems of angular motion.
• Solve work, power, and energy problems.
• Determine the power transmitted in belts and gears.
• Calculate stress in thin rim due to centrifugal action.
• Calculate mechanical advantage and efficiency of simple lifting machines.
• Calculate stress, strain, and working stress, and ultimate tensile strength, factor of safety, and modulus of elasticity of a steel specimen.
• Draw the shearing force and bending moment diagrams for cantilevers and simple supported beams with concentrated or uniformly-distributed loads.
• Calculate using strut formulae, the stresses in of short columns due to eccentric loading.
• Calculate strength, stiffness, and stress due to torsion of solid and hollow shafts, also the power transmitted by shafts and coupling bolts.
• Calculate circumferential and longitudinal stresses in thin cylindrical shells subject to internal pressure.
• Determine the change in fluid pressure with depth, and calculate the total force due to liquid pressure on immersed plane surfaces, both horizontal and vertical.
• Determine the flow through pipes and orifices under constant head, and calculate the effect on flow through pipes and fittings due to friction.
• Draw inlet and outlet velocity diagrams of centrifugal pumps.

Effective as of Winter 2016

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