Fields and Networks CO-2 Topics
2.1 Calculation of MFI for different current carrying conductor configurations using Biotsavarts law
2.1 Calculation of MFI of different current carrying conductor configurations using Amperes circuital law and Determination of Divergence and Curl of H
2.2 Brief overview of magnetic potentials, Application of divergence and curl of H to analyze magnetic properties of various materials
2.2 Determination of forces and torques exerted by magnetic field on other charges
2.2 Computation of Inductance for various current carrying conductor configurations
2.3 Physical interpretation of faradays law of electromagnetic induction, Inconsistency of Amperes circuital for time varying fields
2.3 Consolidate Maxwell’s equations for static and time varying fields
2.1 Calculation of MFI for different current carrying conductor configurations using Biotsavarts law
2.1 Calculation of MFI of different current carrying conductor configurations using Amperes circuital law and Determination of Divergence and Curl of H
2.2 Brief overview of magnetic potentials, Application of divergence and curl of H to analyze magnetic properties of various materials
2.2 Determination of forces and torques exerted by magnetic field on other charges
2.2 Computation of Inductance for various current carrying conductor configurations
2.3 Physical interpretation of faradays law of electromagnetic induction, Inconsistency of Amperes circuital for time varying fields
2.3 Consolidate Maxwell’s equations for static and time varying fields
