This course provides a comprehensive introduction to computational methods in physics, encouraging students to become proficient in using computers as tools to solve real-world physics problems. The emphasis on algorithm development allows students to build a strong foundation for future research or applications in computational physics.
- BCM Teacher: Elizabeth V John
Vth Sem Paper
- BCM Teacher: Elizabeth V John
At the introductory level, this course in quantum mechanics invites the
student to experience the thrill of learning the counter intuitive ways of the
quantum world. Basic machinery of quantum mechanics is introduced with
one dimensional examples. Hilbert space formalism and interpretations are
discussed in a way that enables the student to study further ahead. The
approach in the course is to learn the subject through solving problems and,
therefore, requires the evaluation to be problem based
- BCM Teacher: Tinu Ann Jose
This course provides an overview of the fundamental concepts of Lagrangian and Hamiltonian formalisms, equipping students with the skills to analyze dynamic systems. Emphasis is placed on applying
Lagrangian and Hamiltonian approaches to address various dynamical scenarios. The course also delves into the foundational principles of the Special theory of relativity
- BCM Teacher: Tinu Ann Jose
This course in “Essential Mathematics for Physicists” offers an exploration of fundamental mathematical concepts, emphasizing vectors, matrices, and vector algebra, providing students with essential tools for advanced studies in physics. Through rigorous instruction, students develop proficiency in mathematical techniques crucial for solving complex problems encountered in various branches of physics.
- BCM Teacher: Tinu Ann Jose