• Laminar Convesction
  • Fundamental Principles
    • Introduction
    • Continuity Equation ( Conservation of Mass)
      • Idea of continuum
      • Continuity Equation
      • Other forms of the Continuity Equation
  • Momentum Equations
    • Concept of stress
    • Conservation of Angular Momentum
    • Conservation of Linear Momentum
    • Relative Motion
  • Constitutive Equation for Viscous Fluid Model
    • Stoke's Principle
  • Navier-Stokes Equations: Summary
    • Compressible Fluid
      • Continuity Equation
      • Momentum x equation
      • Momentum y equation
      • Momentum z equation
    • Incompressible Fluid
      • Continuity Equation
      • Momentum x equation
      • Momentum y equation
      • Momentum z equation
  • Energy Equation: Conservation of Energy
    • First Law of Thermodynamics
  • Constitutive Equations:Fourier Principle
    • Fourier Principle
    • Dissipation Function
    • Navier-Stokes Equations and Energy Equation in Cylindrical Coordinates
      • Continuity Equation
      • r- Momentum
      • - Momentum
      • z- Momentum
      • Energy Equation
  • Equation of State and Transport properties
    • Transport Properties
  • Formulation of Problem
    • Well Posed Problem
    • Stability
    • Improperly Posed Problem
    • Well Done Problem
  • Dimensional Analysis
    • Theorem
    • Dimensional Analysis -II Governing Equations & B.C.
    • Boundary conditions
  • Order of Mganitude Analysis
    • Hydraulic Diameter
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