The Johns Hopkins Applied Physics Laboratory (APL) consistently ranks at the forefront of applied physics graduate education, notably through its esteemed Engineering for Professionals program. As a distinguished provider of online applied physics programs, Johns Hopkins Applied Physics Laboratory equips students with advanced engineering skills and prepares them for impactful careers in cutting-edge technology research and development.
Graduates from Johns Hopkins Applied Physics Laboratory programs find diverse and rewarding career paths within applied physics. Opportunities span fields such as fiber optics, astrophysics, laser and quantum optics, and nondestructive testing, reflecting the breadth of expertise cultivated at Johns Hopkins Applied Physics Laboratory. Courses are led by prominent scientists affiliated with the Johns Hopkins Physics Lab, NASA, and the Naval Research Laboratory, ensuring students learn from leading experts and gain insights across optics, interstellar space exploration, ocean science, solid-state physics, and related disciplines.
Within this rigorous program at Johns Hopkins Applied Physics Laboratory, you will:
- Develop mastery in essential mathematical methodologies critical to applied physics and engineering, encompassing integral transforms, Ordinary Differential Equations (ODEs), complex analysis, Partial Differential Equations (PDEs), and boundary value problems.
- Acquire proficiency in solving real-world challenges using Maxwell’s Equations and classical electrodynamics, enabling the investigation of static and time-varying fields in both free space and various media, conservation laws, and gauge invariance.
- Build a robust foundational understanding of the mathematical principles underpinning quantum mechanics.
- Customize your degree path by selecting specialized courses, aligning your curriculum with your specific career aspirations and knowledge requirements within applied physics.
Master’s Degree Concentrations
Concentrations are optional and serve to highlight focused expertise on your academic transcript.
- Materials and Condensed Matter: Integrate knowledge from Applied Physics, Electrical and Computer Engineering, and Materials Science and Engineering for a comprehensive approach to applied physics challenges.
- Photonics: Focus on the practical applications of light by combining applied physics with electrical and computer engineering and photonics principles.
