B.Sc. in Physics (PHM-351T)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 APPLY ANALYZE EVALUATE Clear understanding of cause of rotational and vibrational of diatomic molecules and theoretical understanding on the basis of quantum theory is developed in detail. More realistic picture of rotational – vibrational spectra also becomes clear. Sufficient numbers of problems of rotational spectroscopy and rotational vibrational spectroscopy are also covered. CO2 APPLY ANALYZE Clear understanding of cause of Raman spectra, theoretical understanding of classical Raman theory and quantum theory is developed. Classification of Molecular Electronic States gives insight of understanding of molecular orbitals. Sufficient numbers of problems on the topics are also covered. CO3 APPLY ANALYZE EVALUATE Revise the knowledge of the Newtonian mechanics and Learn to define generalised coordinates, generalised velocities, generalised force and write Lagrangian for mechanical system in terms of generalised coordinates. Apply D’Alembert’s principle to obtain Lagrange’s equations, describe Lagrangian formulations, the ability to formulate Lagrangian dynamics to solve complex problems, apply Lagrange equations to analyse mechanical systems, understand the relationship between symmetries and conservation laws. CO4 APPLY ANALYZE Apply the knowledge of electromagnetics to understand and analyze the motion of charge particle in electric and magnetic field which leads to the different kind of drifts in plasma. Also apply the knowledge of these drifts to understand the naturally formed Van Allen radiation belt by trapping the charged particles approaching earth from solar or galactic origin.
B.Sc. in Physics (PHMDC-114P)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Set up the instruments as per the instructions, Connect the circuit as given in the circuit diagram. CO2 UNDERSTAND APPLY Develop measurements techniques, record observations, use the given formula, do calculations and draw your conclusion from the result. CO3 EVALUATE Find uncertainty involved in the observations CO4 ANALYSE Analyse the observations for scientific inference
B.Sc. in Physics (PHM-113T)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Understand scalars, vectors, product of vectors and their applications, Learning the concept of Gradient, the Divergence theorem. Gauss’s law, The curl and Stoke’s theorem. CO2 REMEMBER UNDERSTAND Remember basic concepts of semiconductor diode, design rectifier circuits, study important aspects of rectifier circuits, and know about the Characteristics of transistor, load line analysis, operating point, cut off and saturation points.
B.Sc. in Physics (PHM-112P)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Set up the instruments as per the instructions, Connect the circuit as given in the circuit diagram. CO2 UNDERSTAND APPLY Develop measurements techniques, record observations, use the given formula, do calculations and draw your conclusion from the result. CO3 EVALUATE Find uncertainty involved in the observations CO4 ANALYSE Analyse the observations for scientific inference
B.Sc. in Physics (PHM-111T)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Understand scalars, vectors, product of vectors and their applications, Learning the concept of Gradient, the Divergence theorem. Gauss’s law, The curl and Stoke’s theorem. CO2 REMEMBER UNDERSTAND Remember basic concepts of semiconductor diode, design rectifier circuits, study important aspects of rectifier circuits, and know about the Characteristics of transistor, load line analysis, operating point, cut off and saturation points. CO3 REMEMBER UNDERSTAND ANALYSE Understand basic concepts of optics in the interference and its applications; Fermat’s Principle and its application; Use of matrix method to analyse complex optical systems CO4 REMEMBER UNDERSTAND Recall Waves and oscillations and describe basic concepts related to Composition of two S.H.M. Lissajous figures, forced vibration, amplitude resonance, Understand the difference between velocity of longitudinal wave in a solid medium and velocity of transverse wave along a stretched string
