Engineering Mechanics (Fall 2011-2014, Undergrad.)
Syllabus
Lecture 1 Notes (PDF) Supplementary Files Statics
Lecture 2 Notes (PDF) Supplementary Files Intro. mechanics of materials
Lecture 3 Notes (PDF) Supplementary Files Axial loads
Lecture 4 Notes (PDF) Supplementary Files Torsion
Lecture 5 Notes (PDF) Supplementary Files Bending
Lecture 6 Notes (PDF) Supplementary Files Shear
Lecture 7 Notes (PDF) Supplementary Files Stress and strain transformation
Lecture 8 Notes (PDF) Supplementary Files Theory of strength
Lecture 9 Notes (PDF) Supplementary Files Buckling
Lecture 10 Notes (PDF) Supplementary Files Energy methods
Lecture 11 Notes (PDF) Supplementary Files Dimension analysis & design
Lecture 12 Notes (PDF) Supplementary Files Dynamics and vibration
Lecture 13 Notes (PDF) Supplementary Files Engineering materials
Lecture 14 Notes (PDF) Supplementary Files Fatigue and fracture
Lecture 15 Notes (PDF) Supplementary Files Natural materials

Physical Mechanics (Fall 2012, 2014, 2016, Grad.)
Syllabus
Lecture 1 Notes (PDF) Supplementary Files H2O: an introduction
Lecture 2 Structures and properties
Lecture 2.1 Notes (PDF) Supplementary Files Structures
Lecture 2.2 Notes (PDF) Supplementary Files Properties
Lecture 3 Electrons and phonons
Lecture 3.1 Notes (PDF) Supplementary Files Quantum mechanics: postulates and simple cases
Lecture 3.2 Notes (PDF) Supplementary Files From atoms to crystals
Lecture 3.3 Notes (PDF) Supplementary Files Electrons and phonons
Lecture 3.4 Notes (PDF) Supplementary Files Hartree-Fock and density functional theory
Lecture 4 Atoms in motion
Lecture 4.1 Notes (PDF) Supplementary Files Equilibrium statistical mechanics I
Lecture 4.2 Notes (PDF) Supplementary Files Equilibrium statistical mechanics II
Lecture 4.3 Notes (PDF) Supplementary Files Free energy and non-equilibrium processes
Lecture 4.4 Notes (PDF) Supplementary Files Phase transition and lattice models
Lecture 4.5 Notes (PDF) Supplementary Files Colloids, polymers, membranes, and networks
Lecture 4.6 Notes (PDF) Supplementary Files Correlation and transport processes

Advanced Computational Solid Mechanics (Fall 2010-2016, Grad.)
Syllabus
Lecture 1 Notes (PDF) Supplementary Files Intro. atomistic simulations
Lecture 2 Notes (PDF) Supplementary Files Solving molecular dynamics
Lecture 3 Notes (PDF) Supplementary Files Thermostats, barostats, and open systems
Lecture 4 Notes (PDF) Supplementary Files Free energy methods, correlation functions
Lecture 5 Notes (PDF) Supplementary Files Code development, quantum effects
Lecture 6 Notes (PDF) Supplementary Files Applications with industrial interests

Nano and Micro Mechanics (Spring 2013-2016, Grad.)
Syllabus
Lecture 1 Notes (PDF) Supplementary Files Strength and toughness
Lecture 2 Notes (PDF) Supplementary Files Materials ageing
Lecture 3 Notes (PDF) Supplementary Files Low-dimensional materials
Lecture 4 Notes (PDF) Supplementary Files Friction and wear
Lecture 5 Notes (PDF) Supplementary Files Dynamical behaviors

Mechanics of Materials (Spring 2011, 2012, 2014-2016, Undergrad.)

Advances in Mechanics and Thermal Science (Spring 2011, Fall 2010, 2014, Grad.)

For the access to lecture notes, please contact Prof. Zhiping Xu (xuzp@tsinghua.edu.cn)