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Continuum Mechanics

  • 1. Kinematics
  • 2. Governing Equations
    • 2.1. Integral Balance Equations of aaa physical quantities
    • 2.2. Differential Balance Equations of aaa physical quantities
    • 2.3. Differential Balance Equations of ddd physical quantities
    • 2.4. Integral Balance Equations of ddd physical quantities
    • 2.5. Jump conditions
    • 2.6. Integral Balance Equations in reference space
  • 3. Equazioni di stato ed equazioni costitutive
  • 4. Equazioni di bilancio di altre grandezze fisiche

Solid Mechanics

  • 5. Introduction to Solid Mechanics
  • 6. Small displacement - statics
  • 7. Small displacement - Statics - Weak formulation and “energy” theorems
    • 7.1. 3-dimensional solid
    • 7.2. General elastic beam structures
    • 7.3. Isotropic elastic beam structures
  • 8. Waves in linear elastic homogeneous isotropic media
  • 9. Finite element methods for beam structures
  • 10. Beams
    • 10.1. de Saint Venant beam
    • 10.2. Thin-walled beam
    • 10.3. Timoshenko beam
    • 10.4. Bernoulli beam
    • 10.5. Aeronautical beam
    • 10.6. Slender beams
    • 10.7. Problems
  • 11. Modal methods for structural problems
  • 12. Structural damping

Fluid Mechanics

  • 13. Introduction to Fluid Mechanics
  • 14. Statics
  • 15. Constitutive Equations of Fluid Mechanics
  • 16. Governing Equations of Fluid Mechanics
  • 17. Non-dimensional Equations of Fluid Mechanics
  • 18. Incompressible Fluid Mechanics
  • 19. Compressible Fluid Mechanics
  • Repository
  • Open issue
  • .md

Beams

10. Beams#

  • de Saint Venant

  • Thin-walled

  • Timoshenko

  • Bernoulli

  • Aeronautical

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9. Finite element methods for beam structures

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10.1. de Saint Venant beam

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