Programme Objectives
| PO | Description |
|---|---|
| PO1 | Knowledge and Understanding: Apply advanced concepts of classical physics, quantum mechanics, electromagnetism, thermodynamics, and modern physics to solve complex physical problems. |
| PO2 | Problem Analysis: Identify, formulate, and analyze scientific problems using principles of physics and mathematics with logical and critical thinking. |
| PO3 | Experimentation and Data Interpretation: Design and conduct experiments, as well as analyze and interpret data to derive meaningful conclusions using modern instruments and techniques. |
| PO4 | Use of Modern Tools: Employ appropriate computational tools, software, and technologies for modeling, simulation, and analysis of physical systems. |
| PO5 | Research and Development: Engage in research and development with a systematic and methodical approach, including literature review, hypothesis testing, and scientific reporting. |
| PO6 | Ethics and Professional Responsibility: Recognize professional, ethical, and social responsibilities in scientific practices and research. |
| PO7 | Communication Skills: Communicate effectively through scientific writing, oral presentations, and discussions with clarity and precision. |
| PO8 | Teamwork and Leadership: Function effectively as an individual and as a member or leader in diverse teams and multidisciplinary settings. |
| PO9 | Lifelong Learning: Recognize the need for lifelong learning and demonstrate the ability to engage in independent and self-directed learning in the context of scientific and technological advancements. |
| PO10 | Environment and Sustainability: Understand the impact of physics-based solutions on environmental and societal contexts and contribute to sustainable development. |
Programme Specific Outcomes
| PSO | Description |
|---|---|
| PSO1 | Core Physics Knowledge: Develop a strong foundational understanding of core areas in physics such as classical mechanics, quantum mechanics, electromagnetism, statistical mechanics, and condensed matter physics. |
| PSO2 | Experimental and Analytical Skills: Acquire hands-on experience in advanced physics laboratories, including data collection, analysis, error estimation, and the use of modern instruments. |
| PSO3 | Computational and Mathematical Proficiency: Apply mathematical tools and computational methods (e.g., MATLAB, Fortran, Python, C++) to model physical systems and solve complex physical problems. |
| PSO4 | Research Competence: Demonstrate the ability to carry out independent research projects, including literature review, hypothesis formulation, data analysis, and effective scientific communication. |
| PSO5 | Specialization and Applications: Gain advanced knowledge in specialized areas such as electronics, and understand their real-world applications. |
| PSO6 | Scientific Communication: Develop skills to effectively present scientific concepts and research findings through oral presentations, technical writing, and scientific publications. |
| PSO7 | Ethics and Lifelong Learning: Understand the ethical aspects of scientific research and demonstrate a commitment to lifelong learning and the advancement of physics for societal benefit. |
Programme Educational Objectives
| PEO | Description |
|---|---|
| PEO1 | Advanced Knowledge Acquisition: Graduates will attain in-depth knowledge in physics and related disciplines to prepare them for research, teaching, and technical careers in academia, industry, and government sectors. |
| PEO2 | Research and Innovation: Graduates will be capable of conducting independent and collaborative research, contributing to scientific discovery, innovation, and technological advancement in physics and interdisciplinary areas. |
| PEO3 | Professional and Ethical Competence: Graduates will demonstrate professional integrity, ethical responsibility, and a commitment to scientific practices, with the ability to contribute responsibly to society. |
| PEO4 | Lifelong Learning and Higher Education: Graduates will be motivated to pursue lifelong learning through higher studies such as Ph.D. programs, professional development courses, and active participation in scientific communities. |
| PEO5 | Communication and Leadership: Graduates will exhibit effective communication, teamwork, and leadership skills, enabling them to excel in academic, research, or industrial environments. |