Thermodynamics
  • Introduction of thermodynamics
  • Basic properties
  • Zeroth law of thermodynamics
  • Heat and work transfer
  • First law of thermodynamics: closed system
  • First law of thermodynamics: open system
  • Second law of thermodynamics
  • Entropy
  • Availability/exergy
  • Properties of pure substances
  • Properties of an ideal gas
  • Thermodynamic relations
  • Introduction
  • Loads
  • Stresses and strains
  • Pure bending
  • Thermal stresses
  • Pure torsion
  • Combined stresses and strains
  • Theories of failures
  • Shear force and bending moment diagram
  • Deflection of beams
  • Columns and struts
  • Thin and thick pressure vessels
  • Introduction
  • Properties of fluid
  • Fluid statics
  • Pressure measurements
  • Fluid kinematics
  • Fluid dynamics
  • Laminar flow through pipes
  • Turbulent flow
  • Boundary layer
  • Dimensional analysis
  • Introduction
  • Different types of IC engines
  • Otto,diesel and dual cycles
  • Introduction
  • Gas turbine cycle
  • Steam turbine cycle
  • Introduction
  • Basic concepts of RAC
  • Gas refrigeration systems
  • Vapour compression refrigeration systems
  • Nomenclature of refrigerants
  • Properties of refrigerants
  • Vapour absorption system
  • Psychrometry
  • Air conditioning
  • Introduction
  • Simple mechanisms
  • Velocity and acceleration analysis
  • Gears and gear trains
  • Governor
  • Kinematic and dynamic analysis of single slider mechanism
  • Balancing
  • Vibrations
  • Cams and followers
  • Gyroscope
  • Introduction
  • Conduction heat transfer
  • Radiation heat transfer
  • Heat exchangers
  • Convection heat transfer
  • Introduction
  • Impact of jets
  • Turbines : Pelton, Francis, Kaplan
  • Pumps: Centrifugal and reciprocating
  • Hydraulic devices
  • Introduction
  • Break even analysis
  • Inventory
  • PERT and CPM
  • Sequencing
  • Forecasting
  • Production planning and control
  • Work study and Motion study
  • Queuing theory
  • Linear Programming
  • Transportation
  • Assignment
  • Value analysis
  • Mechanics of machining
  • Tool life and wear
  • Economics of machining
  • Non-conventional machining processes
  • Jigs and fixtures
  • Limits, fits, and tolerances
  • Metrology
  • Basic concepts of CNC machining
  • Casting
  • Welding
  • Various machining processes
  • Powder metallurgy
  • Metal forming processes
  • Structure and properties of engineering materials
  • Phase diagrams
  • Heat treatment processes
  • Introduction
  • Static and dynamic loading
  • Fatigue strength
  • Design of bolted joints
  • Design of welded joints
  • Design of Riveted joints
  • shafts
  • Bearings
  • Gears
  • Brakes
  • Clutches
  • Springs
  • Introduction
  • Free body diagrams and equilibriums
  • Trusses
  • Virtual work
  • Kinematics of rigid bodies
  • Dynamics of rigid bodies
  • Impulse and momentum
  • Energy
  • Collision