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SAASC |  PHYSICS



Programmes Offered


  1. Students will demonstrate an understanding of core knowledge in physics, including the major premises of mechanics, E&M and Optics & Spectroscopy, Introduction to Solid State Physics.
  2. Students will demonstrate written and oral communication skills in communicating physics-related topics.
  3. Students will design and conduct an experiment (or series of experiments) demonstrating their understanding of the scientific method and processes.
  4. Students will demonstrate proficiency in the acquisition of data using a variety of laboratory instruments and in the analysis and interpretation of such data.
  5. Students will utilize a wide range of printed and electronic resources and information technologies to support their research on physical systems and present those results in the context of the current understanding of physical phenomena.
  6. Students will demonstrate thorough understanding of the analytical approach to modeling of physical phenomena.
  7. Students will demonstrate an understanding of the impact of physics and science on society.
Programme specific outcome
  • Students will demonstrate an understanding of the impact of digital electronics and atomic and nuclear physics on society.

  1. Students will demonstrate an understanding of core knowledge in advanced physics, including the major premises of classical dynamics, mathematical physics, electromagnatic theory, nuclear and particle physics, atomic and molecular physics, and crystal growth and thin film physics.
  2. Students will demonstrate written and oral communication skills in communicating physics-related topics.
  3. Students will design and conduct experiments demonstrating their understanding of the scientific method and processes deploying appropriate analytical methods for getting results from data.
  4. Students will demonstrate proficiency in the acquisition of data using a variety of laboratory instruments.
  5. Students will utilize a wide range of printed and electronic resources for collecting information needed for research on physical systems and present those results in the context of the current understanding of physical phenomena.
  6. Students will demonstrate understanding of the applications of numerical techniques for modeling physical systems for which analytical methods are inappropriate or of limited utility.
  7. Students will demonstrate thorough understanding of the analytical approach to modeling of physical phenomena.
  8. Students will demonstrate an understanding of the impact of physics and science on society.
Programme specific outcome
  • students will demonstrate an understanding of the impact of medical physics and nanoscience on society.

  1. Prepare the students for the pre doctoral degree courses.
  2. Familiarise crystal growth by various methods of synthesis of crystals.
  3. Help research on the resonance phenomena, chaotic dynamics and solutions under the field of nonlinear dynamics.
  4. To study the fundamentals of Thin film technology.
  5. To know about the structure and functional group of the molecules.
  6. Understand the various applications of nanomaterials.
Programme specific outcome
  • Students can equipped to take up research in the broad topics of crystal growth, vibrational spectroscopy, nonlinear dynamics and crystallography.

Programme outcomes
  • Critically apply theories, methodologies, and knowledge to address fundamental questions in their primary area of study.
  • Pursue research of significance in the discipline or an interdisciplinary or creative project.
  • Demonstrate skills in oral and written communication sufficient to publish and present work in their field and to prepare grant proposals.
  • Follow the principles of ethics in their field
Programme specific outcomes
Strengthen of the professional expertise in the field of
  • Vibrational spectroscopy
  • Density functional theory
  • Molecular docking analysis
  • Light harvesting efficiency analysis
  • Crystal Growth Processes & Its Characterization Techniques
  • Thin Film Technology and its Applications
  • Nonlinear Dynamics



Certificate Courses- Home appliances maintenance

Programme specific outcome
  • Enriching fault identifing skills in home appliances
  • Enhance rectifiing the issues at primary level.
  • Knowledge on working principles of devices such as light -fan -iron box -heater-home wiring-basic connectivity of computer -mixer grinder -grinder .
  • Better understanding of home appliances and their malfunctioning.
  • Develops professionally trained personality in maintaing home appliances.
Scope of the Course
  • The course covers the following maintanece and repairing of home applicances and helps the students to become entrepreneur.