Modeling of soft and biological matters
ME-470
This file is part of the content downloaded from Modeling of soft and biological matters.
- Lecture 1-1: Introduction (File)
- Lecture 1-2: Review on Continuum Mechanics (File)
- Lecture2 - Continuum thermodynamics (File)
- Problem sheet 2 (File)
- Numerical problem sheet 1 (File)
- Lecture3-1D elements (File)
- Lecture3 - handwritten note (File)
- Problem sheet 1 solution (File)
- Lecture4-ideal chain and freely jointed chain (File)
- Lecture 4 - handwritten note (File)
- Lecture5-1:Worm-like chain and bulk entropic materials (File)
- Lecture5-2:2D network, motivation and 2D continuum mechanics (File)
- Lecture 5_1 - handwritten note (File)
- Lecture5_2 - handwritten note (File)
- Lecture6: regular triangular network structure (File)
- Problem sheet 2 solution (File)
- Problem sheet 3 (File)
- Lecture 6 - handwritten note (File)
- Lecture 7: non-linear moduli, numerical approach (File)
- Lecture7_reference1: Generic Rigidity Percolation: The Pebble Game (File)
- Lecture7_reference2: Criticality and isostaticity in fibre networks (File)
- Lecture7_reference3: Mechanical criticality of fiber networks at a finite temperature (File)
- Lecture7_reference4: Moduli and modes in the Mikado model (File)
- Lecture7_reference5: Achieving adjustable elasticity with non-affine to affine transition (File)
- Lecture 7 - handwritten note (File)
- Lecture8: Membrane and Interfaces (File)
- Problem sheet 4 (File)
- Numerical problem sheet2 (File)
- Lecture 8 - handwritten note (File)
- Lecture 11: Vesicle Shape (File)
- Problem sheet 3 solution (File)
- Lecture 11 - handwritten note (File)
- Lecture12: Cell Mechanics (File)
- Problem sheet 4 solution (File)
- Lecture 12 - handwritten note (File)