Astronomers, mathematicians, and even philosophers have long loved the fascinating nature of physics. After Class XII, BSc Physics is one of the most popular science stream options. This curriculum equips students with the knowledge necessary to succeed in the workplace by fusing traditional theories with cutting-edge methods. With the development of contemporary technologies, physics has assumed an ever more sophisticated form. To establish a solid career in this profession, earning a master’s degree is a possibility. Many postgraduate options are available after a BSc in physics, ranging from an MSc and MPhil to an integrated MS-PhD.
It is intended to support students who have a solid grasp of the material and to provide them with the chance to work as professionals and researchers in fields that value a solid understanding of physics and its ideas. By enhancing what has already been learned during a course, it helps the students become specialists in the subject they have chosen. Students can launch their careers with high pay by using the expertise they gain from physics courses.
List of Courses After B.Sc Physics
M.Sc in Physics
After a B.Sc. in physics, the M.Sc. is among students’ most popular and common degrees. It will assist students in becoming ready for government and research and development professions. This esteemed programme is designed for highly qualified graduates who want to expand their understanding of physics and work in research at a university, business, or government laboratory. Both physicists and students in mathematics, chemistry, or engineering are welcome to enrol in the course as long as they have a solid foundation in physics and mathematics.
Inspiring research and top-notch instruction may be found in their physics department. They use cutting-edge facilities to conduct research that covers the full spectrum of contemporary physics. You will work on your project at one of the well-known international research groups in the School of Physics and Astronomy, selecting a subject that interests you. Through this project, you will gain crucial independent research experience for your career advancement.
M.Sc in Applied Physics
A 2-year postgraduate transdisciplinary degree called a Master of Applied Physics focuses on the fundamental ideas of the physical sciences and how to apply these ideas in real-world situations. Depending on the particular University, the course can also be studied on a part- or full-time basis. The programme combines the fundamentals of physics with real-world experience and professional knowledge in one of seven specialties, including chemical physics, atmospheric physics, computational physics, materials science, geophysics, physical oceanography, and physical electronics.
A computational physical science M.Sc. in applied physics gives you a foundation in programming and equips you to think analytically about problems, a crucial skill in the age of technology since it permeates every aspect of modern life. Candidates for this course should have a strong interest in applied physics, be able to think critically and manage complex problems. The Master’s degree in Applied Physics aims to prepare students to advance fundamental knowledge and create practical applications.
M.Sc in Advanced Physics
The course strives to cultivate hard skills, such as conceptualization and critical thinking, mathematical and scientific writing, and soft skills, such as communication, teamwork, and presentation, which are both essential in academic research and highly transferable. In addition, you will gain from a series of Recent Advances lectures made especially to investigate current issues in the industry and bring you closer to the research frontier. By bridging the gap between conventional instruction and the more open-ended, collaborative working method used when using real-world research, and this module will help educators.
Staff members and academics give two to three lectures each week in visiting positions as a method of instruction. With the assistance of a staff person, this project allows you to hone your research abilities. You must be able to operate independently to a significant extent. You will gain excellent public speaking and presentation abilities, which are essential in both the academic and professional worlds.Â
M.Sc in Nuclear Physics
A 2-year, full-time postgraduate programme in Physics offers the M.Sc. Nuclear Physics degree. B.Sc. completion is a requirement for qualifying. Nuclear physics is a required course of study involving math and physics, with a minimum grade of 50% from an accredited university. Candidates must succeed in the numerous admission exams that some institutions and universities hold. M.Sc. Candidates take a nuclear physics course that thoroughly introduces them to the field of physics. The course covers the various aspects of atomic structure and nuclear physics.
 The M.Sc. in Nuclear Physics examines the area of physics that describes the processes involved in studying nuclear physics. The candidates applying for admission to the programme should be able to delve deeply into any subject and have a particular interest. Candidates must be proficient in both mathematics and physics to tackle the challenging issues that may come up while studying the topic. Additionally, having the ability to analyze, interpret, study, and evaluate data will be helpful for the programme.
M.Sc in Biophysics
The term biophysics refers to the application of physics to the biological realm. The architecture and operations of biological cells, molecules, and organisms are examined in this field using physical theories. The course gives students in-depth knowledge of biophysics, biochemistry, and biomathematics, preparing them for well-paying positions in pharmaceutical and healthcare organizations. Their programme offers an extensive range of subject options, and the course content is closely related to the ongoing Life Sciences research at our University.
Students have the option of conducting academic research during their second year by completing two independent research projects, or they can choose to meet one of the projects with an internship at an outside organization. The course is significant and career-oriented, opening up various jobs upon completion.
M.Sc in Nanoscience
Nano-Science is an interdisciplinary branch of research that integrates materials science, general electrical engineering, physics, chemistry, and biochemistry. The field of nanoscience studies the characteristics of atomic and molecular assemblies made up of tens, hundreds, or thousands of atoms under various environmental and geometrical conditions. Commercial innovation is given significant priority throughout the Master’s programme. These include nanomaterials and energy, health care and nanomedicine, optoelectronics, and semiconductor technology.
The main goals of a master’s degree in nanoscience are to give students the necessary knowledge to control the fundamental structure of matter. It helps to improve the exploitation for designing and developing new products and systems with potential applications in numerous fields. Research and development in electronics engineering, medicine, pharmacy, chemistry, physics, and other disciplines focusing on nanoscience are among the career options in this area.
M.Sc in Atomic & Molecular Physics
The course aims to give students a foundational understanding of the atom and molecular structure. A progressively higher level of complexity will be applied to the systems. The hydrogen atom is addressed before helium, alkali atoms, and other atoms. As the discussion moves beyond the central field approximation and eventually introduces angular momentum, spin, spin-orbit interaction, nuclear effects, and the influence of external fields, a practical application of interference counts and quantum mechanics.
The fundamental building block of all matter in the universe is an atom or a molecule. Atoms are the building blocks of matter in all its forms. The electronic structure of atoms and molecules controls the characteristics of all materials. In contrast to the collective properties of matter consisting of atoms and molecules, they have individual properties, including electrical, magnetic, and optical ones. This course will improve pre-requisite knowledge for all areas of science and engineering while illuminating the understanding of atoms and molecules.
M.Sc in Atmospheric Science
Scientists study atmospheric phenomena ranging from turbulent eddy through storm clouds to the earth’s global circulation. So, these courses help employ classical physics concepts to explain, predict, and analyze behaviour. Big societal problems associated with weather, such as climate change, air pollution, and renewable energy, serve as our driving forces. Remote sensing, geographic information systems, and big data are crucial tools. A few of our techniques are climate simulation, numerical weather prediction, field investigations, and lab experiments.
Government subsidies for purely academic research, business contracts for specialized meteorological applications, and teaching assistantships are some ways they help graduate students. The research often entails measurement and observation in the field or laboratory, data analysis and interpretation, and the creation, modification, and validation of numerical models. Studies of processes and the result of a physical understanding of the atmosphere are the focus of the research.
Postgraduate Diploma in Energy Science
The Schools of Chemistry, Natural Sciences, Physics, and Engineering collaborate in teaching the M.Sc in Energy Science which is a one-year master’s programme. The objective is to give students a comprehensive understanding of the science behind and practical experience with conventional and sustainable energy technology. Therefore, persons interested in a career in the energy sector must thoroughly understand the pertinent scientific and engineering principles and issues.
This information is crucial for anyone interested in discussing or regulating how the world’s energy consumption affects the environment. These courses are passionate about the environment, ecology, the future of the world, and resource exploitation. These students will grow up and pursue careers in renewable energy sources like wind, hydro, solar, and geothermal energy, as well as environmental sustainability.
Postgraduate Diploma in Nuclear Science & Technology
Nuclear medicine technicians with a range of experience and nuclear medicine understanding should take this course. While some may be new to atomic medicine, others may have been employed there for a considerable time. Most students enrol in the Certificate programme, with the option to continue to the Diploma and Masters programmes. Technicians who have completed the necessary coursework and training may enrol in the Master’s programme.
Additionally, students have the option of taking specialized nuclear medicine modules individually. In order to be as applicable to contemporary clinical practice as feasible, the course includes practical components like poster presentations and work-based portfolios. The course is taught by university faculty members and guest lecturers who have decided to specialize in particular practice areas.
Final thoughts
If you are interested in studying physics, you can pursue a profession as a mathematician, astronomer, space scientist, geophysicist, etc. Following the 12th grade, students choose modern technology areas and pursue a Bachelor of Science in physics. The reason the world distinctively employs more sophisticated methods. Jobs are available for B.Sc graduates, but a master’s degree is your best bet if you want to build a solid career.