 | SEMESTER III (Common for all Branches) Curriculum |
|
| No | Subject | L | T | P | C | Cat. |
| BT1010 | LIFE SCIENCES | 2 | 0 | 0 | 2 | SLS |
| ID1200 | ECOLOGY AND ENVIRONMENT | 2 | 0 | 0 | 2 | BET |
| HS | HUMANITIES ELECTIVE I | 3 | 0 | 0 | 3 | HSS |
| MA | MATHEMATICS III (Elective) | 3 | 0 | 0 | 3 | SMA |
| EE1100 | BASIC ELEC. ENGINEERING | 3 | 0 | 0 | 3 | BET |
| OE2010 | SHIP THEORY | 3 | 0 | 0 | 3 | PMT |
| AM2200 | STRENGTH OF MATERIALS | 3 | 1 | 0 | 4 | PMT |
| - | Total | 19 | 1 | 0 | 2 0 | - |
|
|
 | 0E2010 Ship Theory |
| |
Lines plan and hull form coefficients - Hull forms of different types of ships and boats - Numerical techniques for ship calculations- Fluid pressure, centre of pressure - Weight estimation, centre of gravity, effect of shifting weights.
Lightship, deadweight, CG, CB - definitions - Conditions for equilibrium.
Metaceritre, Hydrostatic particulars - definition and derivations.
Stability at small angles - heel, trim and angle of loll - Free surface effects - Inclining experiment - Stability at large angles - cross curves of stability - dynamic stability levers- Wind heeling moment, maximum allowable KG - Stability of grounded vessels - Submarine stability - Stability criterion for various types of crafts.
Capacity and tonnage calculations - Trim and stability booklet - Freeboard - Flooding of ships, subdivision and damage stability - Launching - Approximate method of calculation for hydrostatic particulars - data and references.
|
|
|
| AM2200 Strength Of Materials |
| |
Analysis of stress and strain – Hook’s law – Relation between elastic constants – Bending stress and shearing stress distribution in beams Torsion of circular cross section – Transformation of stresses – Principal stresses and principle strains – Mohr’s circle – Strain Rosettes – Deflection of beams by successive integration method and moment area method – Thin walled pressure vessels. Elastic instability – Euler formula.
|
|
|
| AM2530 Foundations of Fluid Mechanics |
| |
Fluid continum-Properties of fluids-Methods of describing fluid motion-kinematics of fluid streamlines,streak lines,path lines-equation of Continuity,Euler's equations of motion- Navier strokes equations.
Hydrostatics – Manometry-Fluid force on planes and curved surfaces,submerged and floating bodies- stability of submerged and floating bodies- Aerostatics-variation of pressure,temperature and density with altitude-stability of atmosphere-Relative equilibrium-Fluids subjected to uniform linear acceleration and uniform rotation.
Dimensional Analysis,similitude and model testing-Laminar and turbulent flows- Viscous effects-Boundary layer - separation phenomena - Losses in pipes and minor features.
Hydrodynamics-Two dimensional ideal fluid motion,stream function and potential functions - Source,sink,vortex and double flows - flow around a circular cylinder with and without ciculation - transformation of circular cylindar to an aerofoil - aerofoil characteristics - Effects of viscosity. |
|
|
No comments:
Post a Comment