COURSE SPECIFIC OUTCOMES
Nuclear and Particle Physics (CC301)
• 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 (COC302)
• 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 (COC302)
• 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 (COC303)
• 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 (CC401)
• 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 XRay Fluorescence spectrometry and Mossbauer spectrometry.
• Students are able to work on spectroscopy
Energy Conversion and Storage Devices (DSE404)
• 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 scienceIII(COS402)
• 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 scienceIV(COS403)
• 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.
