Continuum Mechanics Via Problems and Exercises: Answers and solutionsMargarita E. Eglit, Dewey H. Hodges |
Contents
Basic Concepts used for Description of Motion and Deformation | 3 |
General Laws and Equations of Continuum Mechanics | 35 |
Thermodynamics of Continua | 56 |
14 | 62 |
Thermodynamics of media with internal angular momentum | 69 |
Discontinuity Surfaces in Continuum Media | 75 |
Fluid Mechanics | 87 |
55 | 101 |
69 | 113 |
Common terms and phrases
a₁ axes axis boundary conditions Cartesian coordinate Cartesian coordinate system characteristics coefficient components consequently conservation law const constant continuity equation coordinate system corresponding curl cylindrical coordinate system density determined detonation adiabat directed discontinuity surface elastic entropy equal zero equation of motion equilibrium Əxi Figure flow fluid force formula function grad Hooke's law II-theorem incompressible initial interface Lagrangian coordinates layer linear mass material line elements medium metric tensor obtains P₁ parameters particle piston plane pressure relationships satisfied shock wave solution of Problem speed of sound strain tensor stream stress system of equations t₁ transformation transverse wave Umax v₁ v₂ values vector velocity x-axis yields z-axis ρο ди др მა მე მთ მს მუ