Basic Information
Tensors and Dyadics (mainly Cartesian), Transformation Laws, Continua, Description# Strain, Rate of Strain, Stress (isotropic, Deviatoric), Conservation (balance) Laws, Continuity, Transport (mass, Momentum, Angular Momentum, Energy), Kinematics, Velocity, Acceleration, Hydrodynamic Derivatives, Eulerian And Lagrangian Descriptions, Vorticity, Circulation. Dynamics, Laws of Motion. Thermostatics, The First and Second Laws of Thermodynamics, Entropy, Ideal Gas, Energy Balance. Constitutive Equations# Ideal Fluid and Viscous Fluid, Stress-strain Relations. The Euler, Bernoulli and Navier-stokes Equations, Initial And Boundary Conditions. Linear Elasticity (hooke's Law). Energy and Virtual Work.
Faculty: Mathematics
|Undergraduate Studies
Course with no extra credit
104191 - Continuum Mechanics 116027 - Physics of Fluids
Related Books
- A first course in continuum mechanics - Gonzalez, Oscar
- An introduction to continuum mechanics. - Gurtin, Morton E.
- Mathematical modeling in continuum mechanics - Temam, Roger
- Mathematics applied to continuum mechanics [electronic resource] - Segel, Lee A.
- The mechanics and thermodynamics of continua - Gurtin, Morton E.
- The mechanics and thermodynamics of continua [electronic resource] - Gurtin, Morton E.