Courses:

Engineering Mechanics II >> Content Detail



Calendar / Schedule



Calendar

The calendar below provides information on the course's lecture (L), recitation (R), and exam (E) sessions.


SES #TOPICSKEY DATES
L1Subject Outline, Fluid Concepts, The Continuum Hypothesis
R1Review of Hydrostatics and Dimensional Analysis
L2Description of Fluid Flow, Conservation Laws
L3Hydrostatics, Forces on Plane and Curved SurfacesHomework 1 out
R2Stability of Floating Bodies
L4Manometry, Stability of Dams and Gates
L5Mass and Volume Conservation
L6Stream Function, Velocity Potential, Flownet ConstructionHomework 1 due

Homework 2 out
L7The Bernoulli Equation for Ideal Fluids
R3Flownet and Streamline Construction
L8Application of Mass Conservation and Bernoulli
L9Conservation Laws for Finite Control Volumes, Reynolds Transport TheoremHomework 2 due

Homework 3 out
L10Conservation of Momentum for Finite Control Volumes
R4Bernoulli Experiment
L11Applications of Momentum
L12The Bernoulli Equation from Energy ConsiderationsHomework 3 due
L13Special Forms and Interpretations of the Bernoulli Equation
E1Hour Exam 1 (Covering Material through L11)
L14Laminar Flow, Shear Stresses in FluidsHomework 4 out
L15Velocity Distribution in Laminar Flows, Turbulence, The Reynolds Number
R5Application of Conservation Principles for Finite Control
L16Pipe Friction Losses, Moody Diagram, Minor Losses
L17Pipe Flow AnalysisHomework 4 due

Homework 5 out
L18Pump Specification and Requirements
R6Pipe Flow Demonstration and Analysis
L19Turbines and Windmills
L20Drag Forces on Immersed BodiesHomework 5 due

Homework 6 out
L21Lift Forces on Immersed Bodies
R7Dynamic Response of a Floating Body
L22Fluid Mechanics of Pitching
L23Uniform Open Channel FlowHomework 6 due
L24Uniform Open Channel Flow Computations
E2Hour Exam 2 (Covering Material through L23)Homework 7 out
R8Open Channel Flow Computations
L25Bernoulli Principle in Open Channel Flow, Specific Head-Depth Diagram
L26Application of Specific Head in Open Channel Flow, Super- and Sub-critical Flows
L27Momentum Principle in Open Channel FlowHomework 7 due

Homework 8 out
L28Application of Momentum Principle in Open Channel Flow
R9Application of Energy and Momentum Principles in Open Channel Flows
L29Gradually Varied Open Channel Flow
L30Gradually Varied Flow ProfilesHomework 8 due

Homework 9 out
L31Discharge From Lakes and Under Gates
R10Determination of Gradually Varied Flow Profiles
L32Further Examples of Gradually Varied Flow
L33Unsteady Flow in Open Channels, Kinematic WavesHomework 9 due
L34Flood Routing
E3Hour Exam 3 (Covering Material through L34)
L35-L36Differential Analysis of Fluid Flow, Navier-Stokes Equations
E4Final Exam (3 Hours)

 








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