Covers fundamental principles of motion and forces, including Newton's laws and energy conservation.
Provides essential mathematical tools and techniques, emphasizing the importance of group theory in understanding symmetry.
Focuses on electric and magnetic fields, electromagnetic waves, and their interactions with matter.
Introduces principles of quantum mechanics, including wave-particle duality and the Schrödinger equation.
Explores laws of thermodynamics and introduces statistical mechanics, linking microscopic behavior to macroscopic properties.
Covers nuclear structure, nuclear reactions, and principles of radioactivity with applications in medicine and energy.
Focuses on properties and behaviors of solids and liquids, covering crystallography and electronic properties.
Explores the structure of atoms and molecules, focusing on atomic models and molecular interactions.
Introduces principles of electronic circuits and instrumentation techniques, covering both analog and digital electronics.
Focuses on principles of laser operation, optical fiber technology, and their applications in science and industry.
Covers fundamental concepts of inorganic chemistry, including bonding theories and the chemistry of specific elements.
Focuses on electronic spectra, spectroscopic methods, and the chemistry of lanthanides and actinides, including organometallic compounds.
Discusses advanced topics in inorganic chemistry, including nuclear reactions, solid-state chemistry, and superconductivity.
Introduces fundamental concepts in organic chemistry, including nomenclature, stereochemistry, and various organic reactions.
Covers advanced organic reactions, including rearrangement reactions and oxidation-reduction processes, focusing on reagents used in synthesis.
Explores photochemistry, pericyclic reactions, and the chemistry of natural products, along with polymerization fundamentals and spectroscopic methods.
Introduces essential concepts in physical chemistry, including the gaseous state, thermodynamics, and statistical mechanics.
Focuses on adsorption, electrochemistry, and reaction kinetics, emphasizing principles of catalysis and their applications.
Covers advanced topics including quantum mechanics, computational chemistry, and group theory, along with various spectroscopic techniques.
Covers analytical techniques, environmental chemistry, and the study of advanced materials, including supramolecular chemistry and its applications.