MAGNETIC FIELD
16.1 Magnetic field lines and magnetic flux; Oersted’s experiment
16.2 Force on moving charge; Force on a conductor
16.3 Force and Torque on rectangular coil, Moving coil galvanometer
16.4 Hall effect
16.5 Magnetic field of a moving charge
16.6 Biot and Savart law and its application to
(i) a circular coil
(ii) a long straight conductor
(iii) a long solenoid
16.7 Ampere’s law and its applications to
(i) a long straight conductor
(ii) a straight solenoid
(ii) a toroidal solenoid
16.8 Force between two parallel conductors carrying current- definition of ampere
Learning Outcomes
16.1 Show understanding of the concept of magnetic field lines and magnetic flux and sketch magnetic field lines around a straight current carrying conductor and long solenoid
16.2 Explain Oersted’s experiment, its outcome and limitations
16.3 Discuss force on moving charge in uniform magnetic field
16.4 Discuss force on a current carrying conductor placed in uniform magnetic field
16.5 Describe force and Torque on rectangular coil placed in uniform magnetic field
16.6 Describe moving coil galvanometer and know its applications
16.7 Explain Hall effect and derive the expression VH=BI/ntq where t is thickness
16.8 Use Hall probe to measure flux density of a uniform magnetic field
16.9 State Biot and Savart law and know its application on (i) a circular coil (ii) a long straight conductor (iii) a long solenoid
16.10 State Ampere’s law and know its applications to (i) a long straight conductor (ii) a straight solenoid (ii) a toroidal solenoid
16.11 Discuss force between two parallel conductors carrying current- definition of ampere
