Vision:   

To develop the department as a centre for Advanced Studies in Materials Science and Technology To enable the student to acquire the knowledge of principle, techniques and processes in physics

Program Outcomes (PO)

PO1     To create, apply, and disseminate knowledge of physics in theoretical and experimental domains under Materials science specializations.

PO2     To develop the ability to identify, formulate, analyze and solve problems in in theoretical and experimental domains of physics at both curricular and research level through critical thinking.

PO3     To enable students to apply ICT based skills and making them scientific software literate to use in academics

PO4     To encourage research culture, provide research ambience and develop related technical proficiency

PO5     To develop attitude to pursue further research and finding placement avenues through it.

PO6     To inculcate academic and social ethical values among the students

PROGRAM SPECIFIC OUTCOMES (PSO)

PSO1   Create, apply and disseminate knowledge of physics in theoretical and experimental domains under solid state physics specializations.

PSO2   Learn concepts of physics, particularly concepts in classical mechanics, quantum mechanics, statistical mechanics, electrodynamics, condensed matter physics, atomic and molecular physics and nuclear and particle physics.

PSO3   Develop the ability to identify, formulate, analyse and solve problems in theoretical and experimental domains of physics at both curricular and research level through critical thinking

PSO4   Feel encouraged undertaking research and developing related technical proficiency.

PSO5   Develop attitude to pursue further research and find placement avenues through it

PSO6   Imbibe academic and social ethical values.

COURSE SPECIFIC OUTCOMES

Nuclear and Particle Physics (CC-301)

• Students are able to understand the nuclear forces and their potential to apply in experiments.

• Students are able to analyse the single particle nuclear shell model and related phenomena.

• Students are able to understand and apply selection rule of elementary particles and fission, fusion reactions.

• Students are able to understand and apply the Gellman Nishijima formula to solve numerical problems.

Statistical data analysis (COC-302)

• Students are able to understand the nuclear forces and their potential to apply in experiments

• Students are able to analyse the single particle nuclear shell model and related phenomena

Material science -I (COC-302)

• Students are able to understand the nuclear forces and their potential to apply in experiments

• Students are able to analyse the single particle nuclear shell model and related phenomena

• Students are able to understand and apply selection rule of elementary particles and fission, fusion reactions.

• Students are able to understand and apply the Gellman Nishijima formula to solve numerical problems

Material science -II (COC-303)

• Students are able to understand the Physical and mechanical properties of materials.

• Students are able to analyse the thermal properties of materials.

• Students are able to understand Electric and magnetic properties of materials.

• Students are able to understand optical properties of materials.

Experimental Techniques (CC-401)

• Students are able to understand working, measurement of various types of the pumps and simple methods related to detectors.

• Students are able to understand low temperature and microscopy.

• Students are able to understand fundamentals of atomic absorption spectroscopy.

• Students are able to understand the principle of X-Ray Fluorescence spectrometry and Mossbauer spectrometry.

• Students are able to work on spectroscopy

Energy Conversion and Storage Devices (DSE-404)

• Students are able to understand solar photovoltaics.

• Students are able to learn dye sensitized and quantum dot sensitized solar cells.

• Students are able to learn organic and perovskite solar cells.

• Students are able to understand energy storage device like supercapacitors and batteries.

 Materials science-III(COS-402)

• Students are able to understand solar photovoltaics.

• Students are able to learn dye sensitized and quantum dot sensitized solar cells.

• Students are able to learn organic and perovskite solar cells.

• Students are able to understand energy storage device like supercapacitors and batteries.

Materials science-IV(COS-403)

• Students are able to understand solar photovoltaics.

• Students are able to learn dye sensitized and quantum dot sensitized solar cells.

• Students are able to learn organic and perovskite solar cells.

• Students are able to understand energy storage device like supercapacitors and batteries.

Students of the department are placed at various Sectors like

• Teaching

• Research

• Subject Matter Expert /Content Writer

• Coaching Centre

• Government Organisation

• Lab Technician

• Online Tutor

• First Few pages
• Volume-1
• Volume - 2A
• Volume - 2B