ApL107: Difference between revisions
| [checked revision] | [checked revision] |
Prashantt492 (talk | contribs) Creating course page via bot |
Bot: wrap bare course codes in wikilinks |
||
| Line 4: | Line 4: | ||
| credits = 5 | | credits = 5 | ||
| credit_structure = 3-1-2 | | credit_structure = 3-1-2 | ||
| pre_requisites = APL100 | | pre_requisites = [[APL100]] | ||
| overlaps = APL106, APL105 | | overlaps = [[APL106]], [[APL105]] | ||
}} | }} | ||
== ApL107 : Mechanics of Fluids == | == ApL107 : Mechanics of Fluids == | ||
Introduction to Fluids and the concept of viscosity, Flow visualization, Fluid Statics, Physical laws for a control volume including continuity, momentum and energy equations, Bernoulli equation, Differential equations of fluid motion, Navier Stokes equations, vorticity and potential flows, dimensional analysis and similitude, Boundary layer theory, viscous flow in ducts and applications to turbomachinery. Laboratory experiments will demonstrate the concepts learnt in the theory and appreciation of their limitations. | Introduction to Fluids and the concept of viscosity, Flow visualization, Fluid Statics, Physical laws for a control volume including continuity, momentum and energy equations, Bernoulli equation, Differential equations of fluid motion, Navier Stokes equations, vorticity and potential flows, dimensional analysis and similitude, Boundary layer theory, viscous flow in ducts and applications to turbomachinery. Laboratory experiments will demonstrate the concepts learnt in the theory and appreciation of their limitations. | ||
Latest revision as of 16:22, 14 April 2026
| ApL107 | |
|---|---|
| Mechanics of Fluids | |
| Credits | 5 |
| Structure | 3-1-2 |
| Pre-requisites | APL100 |
| Overlaps | APL106, APL105 |
ApL107 : Mechanics of Fluids
Introduction to Fluids and the concept of viscosity, Flow visualization, Fluid Statics, Physical laws for a control volume including continuity, momentum and energy equations, Bernoulli equation, Differential equations of fluid motion, Navier Stokes equations, vorticity and potential flows, dimensional analysis and similitude, Boundary layer theory, viscous flow in ducts and applications to turbomachinery. Laboratory experiments will demonstrate the concepts learnt in the theory and appreciation of their limitations.