Department of Physics

PROGRAM OUTCOME OF B.Sc. in PHYSICS

Students applying to the B.Sc. degree should possess the qualities listed below, which will aid them in achieving their goals in the future.

PO1: Awareness of human values, culture, and a spirit of service to others.

PO2. Effective communication and language learning, including the ability to read, write, listen, and speak another language fluently and comprehend its cultural significance.

PO3: Intellectual integrity, comprehension of ethical and human values, and independence in studying relevant theories and procedures

PO4: Develop analytical and critical thinking abilities for problem-solving in challenging, shifting social, linguistic, and literary situations.

PO5: Professional with self-confidence, self-reliance, self-reflection, and creativity to overcome challenges in both professional and personal life.

PO6: Develop your civic responsibilities and human values in order to create an egalitarian society.

PO7: Knowledge of the variety of data resources, their significance, and conservation techniques in case of various branches of science.

PO8: Scientific approach to address problems in physical science and use of those approaches for human welfare.

PO9: Application of knowledge and skills in entrepreneurship. PO10. Develop new techniques/methods for solving the problems of the allied disciplines.

PROGRAM SPECIFIC OUTCOME:

Aims of Four Year Under-Graduate Programme (FYUGP) in Physics are:

PSO1: Strengthen experimental techniques, data analysis, computations, measurements, and the use of equations, formulas, graphs, and mathematical tools to solve problems.

PSO2: Recognize the theories, ideas, and importance of physics and how it relates to modern technology.

PSO3: Through mini-projects, projects, models, demonstrations, presentations, etc., increase enthusiasm in the subject and advance technological aspects.

PSO4: Become familiar with quantum mechanical ideas that are relevant to understanding the behaviour of nanomaterials and their uses in nanotechnology.

PSO5: Recognize several kinds of crystal formations and symmetries, comprehend the connection between reciprocal space and actual space, and become familiar with the Bragg’s X-ray diffraction in crystals.

PSO6: Improve academic performance, character traits, and transferable skills; this will allow students to grow become responsible citizens.

COURSE OUTCOMES:

Sem-I PHYC1 (MAJOR)

Paper- I (Mechanics and Properties of Matter)

After the completion of this course, the learner will be able to:

CO1. Grasped the Newton’s laws of motion, different types of frames of references and Centre of mass.

CO2. Learned conservation laws of energy and linear momentum and apply them to solve problems

CO3. Learn the basics idea of moment of inertia and its application for different shapes of object. Also know about rotational motion.

CO4. Fundamental ideas of special theory of relativity such as length contraction and time dilation and mass energy invariance.

CO5. Identifying and describing physical systems with their professional knowledge.

CO6. Impart the knowledge of Newtonian mechanics and its role in relevant areas.

CO7. Impart the knowledge of properties of matter.

CO8. Develop the concepts of special theory of relativity.

B.Sc. Part-I Sem-I GECPHY1A (Generic Elective Courses) Paper- I (Evolution of Science)

After the completion of this course, the learner will be able to:

CO1. Attain a comprehensive comprehension of the development of science from antiquity to the present era.

CO2. Comprehend the noteworthy scientific breakthroughs, inventions, and contributions that have paved the way for modern science.

CO3. Assess the influence of science on human civilization and how scientific progress has positively impacted societal progress.

CO4. Cultivate a critical mindset to evaluate the significance of scientific contributions and their effect on society.

CO5. Develop an admiration for the interdisciplinary character of science and its interconnection with other academic disciplines.

B.Sc. Part-I Sem-I SEC113 (Skill Enhancement Courses) Paper- I (Electrical Circuits and Network Skills)

After the completion of this course, the learner will be able to:

CO1. Design and troubleshoot certain electrical circuits and domestic appliances along with the understanding of the working of those appliances.

CO2. Do electrical wiring and repairing. This knowledge will develop the skill of the students for various electrical repairing and servicing purposes.

B.Sc. Part-I Sem-I MINPHY1 (Minor Courses) Paper- I (Mechanics)

After the completion of this course, the learner will be able to:

CO1. Understand the basic concepts and ideas in mechanics- e.g. motion, force and torque, mass and moment of inertia, linear and angular momentum, kinetic energy and potential energy etc. by parallel studies of linear dynamics and rotational dynamics.

CO2. Understand the basic conservation laws by studying them in various mechanical systems including collisions, oscillations, gravitational systems etc.

CO3. Analyze simple harmonic oscillator in detail.

CO4. Understand the concept of frame of reference, importance of relative transformations and invariance of laws of Physics.

CO5. Realize the consequences of a non-inertial frame in our real physical world.

Sem-II PHYC2 (MAJOR)

B.Sc. Part-I Sem-II PHYC2 (MAJOR) Paper- I (Waves and Optics)

After the completion of this course, the learner will be able to:

CO1. Develop the theoretical knowledge of waves and oscillations and superposition principle.

CO2. Acquaint the learner with the interesting phenomena of light.

CO3. Build the theoretical knowledge of various optical instruments.

CO4. Learn about Linearity and Superposition Principle.

CO5. Learn about superposition of two collinear oscillations having equal frequencies and different frequencies (Beats)

B.Sc. Part-I Sem-II GECPHY2B (Generic Elective Courses) Paper- I (Digital and Space Technologies)

After the completion of this course, the learner will be able to:

CO1. understand the role played by technological systems in the service of society

CO2. have a general idea of the working of the underlying technology

CO3. be able to make decisions on the use of technology in their field of work.

B.Sc. Part-I Sem-II SEC213 (Skill Enhancement Courses) Paper- I (Basic Instrumentation Skills)

After the completion of this course, the learner will be able to:

CO1. Handle various measuring laboratory instruments properly

CO2. Assess the possible sources of error in the measurements

CO3. Analyze issues and debug problems in the instrument functioning

CO4. Develop understanding the true concept & scope of plant biodiversity.

B.Sc. Part-I Sem-II MINPHY2 (Minor Courses) Paper- I (Waves and Optics)

After the completion of this course, the learner will be able to:

CO1. Learn the basics of wave motion.

CO2. Know about the behavior of light due to its wave nature.

CO3. Identify and understand different phenomena due to the interaction of light with light and matter.

CO4. Analyze some of the fundamental laws and principles of light which are used in many important optical instruments.

Sem-III PHYC3 & PHYC4 (MAJOR)

B.Sc. Part-I Sem-III PHYC3 & PHYC4 (MAJOR) Paper- I &II (Mathematical Physics – I & General Lab I)

After the completion of this course, the learner will be able to:

CO1. Write a problem in Physics in the language of Mathematics.

CO2. Identify a range of diverse mathematical techniques to formulate and solve a problem in basic Physics.

CO3. Analyse some of the basic mathematical concepts and methods.

CO4. Apply the knowledge and understanding of these mathematical methods to solve problems in a number of elementary branches of Physics like mechanics, electromagnetic theory, statistical Physics, thermal Physics etc.

CO5. Apply theoretical knowledge in practical applications.

CO6. Identify and understand different phenomena due to the interaction of light with light and matter.

CO7. Analyse some of the important principles used in mechanics.

B.Sc. Part-I Sem-III GECPHY3A (Generic Elective Courses) Paper- I (The Universe)

After the completion of this course, the learner will be able to:

CO1. Acquire knowledge of the Physical universe and its evolution.

CO2. Have a solid understanding in many areas of modern astronomy and their basic underlying physical principles.

B.Sc. Part-I Sem-III SEC313 (Skill Enhancement Courses) Paper- I (Basic Instrumentation Skills)

After the completion of this course, the learner will be able to:

CO1. Work smoothly in a Linux environment.

CO2. Use FORTRAN programming in numerical analysis..

CO3. Prepare documents (including scientific documents) using LATEX.

CO4. Do graph plotting and analysis through programming languages like GNU plot.

B.Sc. Part-I Sem-III MINPHY2 (Minor Courses) Paper- I (General Lab 1)

After the completion of this course, the learner will be able to:

CO1. Apply theoretical knowledge in practical applications.

CO2. Identify and understand different phenomena due to the interaction of light with light and matter.

CO3. Analyze some of the important principles used in mechanics.