Exploring wave-particle duality and quantum mechanics has given me a profound understanding of the behavior of particles at the smallest scales, teaching me to analyze wave functions and apply quantum principles to solve cutting-edge engineering problems.
Studying electromagnetic fields and Maxwell's equations has equipped me with the knowledge to design and analyze systems involving electricity, magnetism, and wave propagation, essential for advancements in communication and electronics.
From Newton's laws to energy conservation, mechanical physics has provided me with the tools to model and predict the motion and forces in physical systems, forming the backbone of my problem-solving skills in engineering design and analysis.
From understanding atomic structures to exploring chemical reactions, chemistry has provided me with a foundational knowledge of matter and its transformations, enabling me to apply these principles to material science, energy systems, and innovative engineering solutions.