Chemical physics is the study of how the laws of physics give rise to the complexity of molecular behavior and the extraordinary variety of materials and properties - from liquid crystals to tungsten carbide - that result when large numbers of atoms or molecules interact with each other. To trace the connection between fundamental physical laws and their diverse material outcomes you will apply computational techniques and gain experience in the modelling tools used in material design and technological development. You will address the fundamentals of structure in materials including symmetry and crystal stability, defects, porous structures and emergent properties such as magnetism. You will explore the statistical origins of thermodynamic stability and chemical kinetics, concepts fundamental to battery, fuel cell, sensor, and capacitor technologies. Modern experimental methods for structural determination (e. g. neutron diffraction) and dynamics (e. g. pulsed laser spectroscopy) will be covered. Chemical Physics (Advanced) differs from CHEM2524 in that the laboratory consists of open-ended discovery-oriented exercises. By doing this unit you will develop a deep insight into the physical basis of complex chemical systems and a firm foundation for future studies in physical and computational chemistry, materials science, and device design. These same lectures are also covered in CHEM2534 Concepts in Chemical Physics but with the laboratory program replaced by a series of classroom workshops and assignments.