* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Curriculum plan of Dr . Rachana Kumar For even session 2015-16
Survey
Document related concepts
Tensor operator wikipedia , lookup
History of algebra wikipedia , lookup
System of linear equations wikipedia , lookup
Bra–ket notation wikipedia , lookup
Vector space wikipedia , lookup
Euclidean vector wikipedia , lookup
Linear algebra wikipedia , lookup
Basis (linear algebra) wikipedia , lookup
Matrix calculus wikipedia , lookup
Covariance and contravariance of vectors wikipedia , lookup
Cartesian tensor wikipedia , lookup
Transcript
Curriculum plan of Dr . Rachana Kumar For even session 2015-16 B.Sc I (PS) PHYSICS-DSC 2: ELECTRICITY AND MAGNETISM 2 periods per week Allocation of Lectures Content Vector Analysis: Review of vector algebra (Scalar and Vector product), gradient, divergence, Curl and their significance, Vector Integration, Line, surface and volume integrals of Vector fields, Gauss-divergence theorem and Stoke's theorem of vectors (statement only). Brief introduction of dia-, para- and ferromagnetic materials. Electromagnetic Induction: Faraday's laws of electromagnetic induction, Lenz's law, self and mutual inductance, L of single coil, M of two coils. Energy stored in magnetic field. Maxwell`s equations and Electromagnetic wave propagation: Equation of continuity of current, Displacement current, Maxwell's equations, Poynting vector, energy density in electromagnetic field, electromagnetic wave propagation through vacuum and isotropic dielectric medium, transverse nature of EM waves, polarization. Schedule followed 12 lectures Jan-Feb 2 lectures April, to be covered, Revision of syllabus 6 lectures March-April, to be covered 10 lectures March, continuing B.Sc I (PS) PHYSICS-DSC 2: ELECTRICITY AND MAGNETISM 2 periods per week Content Allocation of Lectures Vector Analysis: Review of vector algebra (Scalar and Vector product), gradient, divergence, Curl and their significance, Vector Integration, Line, 12 lectures surface and volume integrals of Vector fields, Gauss-divergence theorem and Stoke's theorem of vectors (statement only). Brief introduction of dia-, para- and ferromagnetic 2 lectures Schedule followed Jan-Feb April, to be covered materials. Electromagnetic Induction: Faraday's laws of electromagnetic induction, Lenz's law, self and mutual inductance, L of single coil, M of two coils. Energy stored in magnetic field. Maxwell`s equations and Electromagnetic wave propagation: Equation of continuity of current, Displacement current, Maxwell's equations, Poynting vector, energy density in electromagnetic field, electromagnetic wave propagation through vacuum and isotropic dielectric medium, transverse nature of EM waves, polarization. 6 lectures March-April, to be covered Test to be taken 10 lectures March, continuing GE: MECHANICS 1 period per week Content Allocation of Lectures Shedule followed Vectors: Vector algebra. Scalar and vector products. Derivatives of a vector with respect to a parameter. 4 lectures Jan-Feb Ordinary Differential Equations: 1st order homogeneous differential equations. 2nd order homogeneous differential equations with constant coefficients. 6 lectures Elasticity: Hooke’s law - Stress-strain diagram Elastic moduli-Relation between elastic constants Poisson’s Ratio-Expression for Poisson’s ratio in terms of elastic constants q, η and by Searles method. 5 lectures 2nd March, order still to be completed March-April, still to be completed