The textbook is "Introduction to Electrodynamics" - 4th Edition by David J. Griffiths
These are my notes on the lectures:
Lecture#1 and Lecture#2 Vectors: Recording1 Recording2
Lecture#3 Vector Operators: Recording1
Lecture#4 Line,Surface,Volume Integrals and Fundamental Theorems of Vector Operators: Recording1 Recording2
Lecture #5 Griffiths 1.3.6-1.4.1 Integration by parts, Curvilinear Corrdinates, Dirac Delta Function : Recording1
Lecture #6 Griffiths 1.6.1-2.1.4 Theory of Vector Fields, Electric Fields : Recording1
Lecture #7 Griffiths 2.2.1-2.2.2 Divergence of the Electric Field, Gauss's Law : Recording1
Lecture#8 Griffiths 2.2.1-2.2.2 Gauss's Law, Curl of the Electric Field, Electric Potential : Recording1
Lecture#9 Griffiths 2.3.5-2.4.4 Electrostatic Boundary Conditions, Work and Energy in Electrostatics. : Recording1 Recording2
Lecture#10 Griffiths 2.5.1-2.5.3 Conductors, Capacitance : Recording1
Lecture#11 Griffiths 5.1.1-5.1.3 [Magnetic Fields, Magnetic Forces, Currents] : Recording1
Lecture#12 Griffiths 5.1.3-5.3.2 [Currents, Biot-Savart Law, Divergence and Curl of the Magnetic Field ] : Recording1
Lecture#13 Griffiths 5.3.1-5.3.3 [Divergence and Curl of the Magnetic Field, Ampere's Law] : Recording1 Recording2
Lecture#14 Griffiths 5.4.1-5.4.2 [Magnetic Vector Potential, Magnetostatic Boundary Conditions] : Recording1 Recording2
Lecture#15 Griffiths 7.1.1-7.1.3 [Electrodynamics, emf, Motional emf, Universal Flux Rule, Lenz's Law ] : Recording1 Recording2
Lecture#16 Griffiths 7.2.1-7.2.4 [ Electromagnetic Induction, Faraday's Law, Induced Electric Fields,Inductance, Back emf, Energy in Magnetic Fields] : Recording1 Recording2
Lecture#17 Griffiths 7.3.1-7.3.3 [Maxwell's Equations in Free Space]: Recording1 Recording2