Time-dependent physical situations.
Electromagnetic induction: Electromotive force and induction laws. Practical applications. Coefficients of mutual and self induction. RL and LC circuits.
Maxwell's equations and prediction of new phenomena. Experimental verification. Solutions of Maxwell's equations using plane waves and spherical waves. Poynting’s vector.
Geometrical Optics.
Mazzoldi, Nigro, Voci - Elementi di fisica - Elettromagnetismo e Onde
Learning Objectives
Acquire knowledge about time dependent electric and magnetic fields.
Prerequisites
Physics II A
Teaching Methods
Total number of hours for Lectures:36
Laboratory activities (hours): 14
Type of Assessment
Oral and written examination with the report of the experimental work performed
Course program
Time-dependent physical situations.
Electromagnetic induction: Electromotive force and induction laws. Practical applications. Coefficients of mutual and self induction. RL and LC circuits.
Maxwell's equations and prediction of new phenomena. Experimental verification. Solutions of Maxwell's equations using plane waves and spherical waves. Poynting’s vector.
Geometrical Optics.