Overview
Overview
Course Features
- Lectures 181
- Quizzes 0
- Duration 50 hours
- Language English
- Students 253
- Assessments Yes
Curriculum
Curriculum
-
01 Electrostatics Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Vector Form Of Coulombs Law Video
- Lecture 03 : Electric Field Video
- Lecture 04 : Electric Potential Video
- Lecture 05 : Relation V And E Video
- Lecture 06 : Equipotential Surface Video
- Lecture 07 : Question Video
- Lecture 08 : Charge Video
- Lecture 09 : Questions Video
- Lecture 10 : Coulomb’s Law Video
- Lecture 11 : Coulomb’s Law Exampals Video
- Lecture 12 : Examples and Vector Form Video
- Lecture 13 : Continuous Body Video
- Lecture 14 : Questions on Equilibrium Video
- Lecture 15 : Electric Field And Electric Field Lines Video
- Lecture 16 : Electric Field Intensity Video
- Lecture 17 : Equation Video
- Lecture 18 : Equation of a Triangle of Side a Video
- Lecture 19 : Infinite Wire Video
- Lecture 20 : Charged Ring Video
- Lecture 21 : Half Ring Video
- Lecture 22 : Disc Video
- Lecture 23 : Electric Field Lines Video
- Lecture 24 : Field Lines Concept Video
- Lecture 25 : Gaussian Surface Video
- Lecture 26 : Gauss Law Applications Video
- Lecture 27 : Solid Non Conducting Sphere Video
- Lecture 28 : Gaussian Surface Video
- Lecture 29 : Solid Sphere Video
-
02 Electric Potential And Capacitance Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Electrostatic Potential Energy Video
- Lecture 03 : Direction Of Electric Field Video
- Lecture 04 : Partial Integration Video
- Lecture 05 : Sunday Test Discussion Video
- Lecture 06 : Equipotential Surface Video
- Lecture 07 : Solid Sphere Video
- Lecture 08 : Concentric Shells Video
- Lecture 09 : Electric Field Due To A Dipole Video
- Lecture 10 : Axial Point Video
- Lecture 11 : Sunday Test Discussion Video
-
03 Capacitance Video And Class Notes
- Lecture 01 : Parallel Plate Capacitor Video
- Lecture 02 : Spherical Capacitor Video
- Lecture 03 : Series Combination Video
- Lecture 04 : Sunday Test Discussion Video
- Lecture 05 : Wheat Stone Bridge Video
- Lecture 06 : Infinite Ladder Video
- Lecture 07 : Dielectric In Capacitor Video
- Lecture 08 : Similar Capacitors Video
- Lecture 09 : Charging Of Capacitor Video
- Lecture 10 : Charging And Discharging Of Capacitor Video
- Lecture 11 : Sunday Test Discussion Video
-
04 Current Electricity Video And Class Notes
- Lecture 01 : Water Current Video
- Lecture 02 : Current Density Video
- Lecture 03 : Point Potential Method Video
- Lecture 04 : Sunday Test Discussion Video
- Lecture 05 : Kirchhoff Voltage Law Video
- Lecture 06 : Battery Video
- Lecture 07 : Resistivity Video
- Lecture 08 : Sunday Test Discussion Video
- Lecture 09 : Electrical Instruments Video
-
05 Ray Optics Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Reflection Video
- Lecture 03 : Reflection Of Spherical Surface Video
- Lecture 04 : Newtons Formula Video
- Lecture 05 : Absolute Refractive Index Video
- Lecture 06 : Reflection Of Light Video
- Lecture 07 : Questions Video
- Lecture 08 : Refractive Index Video
- Lecture 09 : Total Internal Reflection Light Video
- Lecture 10 : Reflection Light Video
- Lecture 11 : Lens Video
- Lecture 12 : Converging Lens Video
- Lecture 13 : Prism Video
- Lecture 14 : Dispersion Video
- Lecture 15 : Optical Instruments Video
- Lecture 16 : Questions Video
- Lecture 17 : Exam Questions Video
-
05 Wave Optics Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Interference Video
- Lecture 03 : Types Of Interference Video
- Lecture 04 : Fring Width [B] Video
- Lecture 05 : Angular Fringe Width Video
- Lecture 06 : Fraunhofer Diffraction From Single Slits Video
- Lecture 07 : Invisible Light Video
- Lecture 08 : Brewster’s Law Formula Video
- Lecture 09 : Resolving Power Video
-
06 Photoelectric Effect Video And Class Notes
-
07 Matter Waves Video And Class Notes
-
08 Current Electricity Video And Class Notes
- Lecture 01 : Water Current Video
- Lecture 02 : Current Density Video
- Lecture 03 : Point Potential Method Video
- Lecture 04 : Sunday Test Discussion Video
- Lecture 05 : Kirchhoff Voltage Law Video
- Lecture 06 : Battery Video
- Lecture 07 : Resistivity Video
- Lecture 08 : Sunday Test Discussion Video
- Lecture 09 : Electrical Instruments Video
- Lecture 10 : Current Electricity Video
- Lecture 11 : Current In Terms Of Drift Velocity Video
- Lecture 12 : Colour Wings Of Carbon Resistors Video
- Lecture 13 : White Stone Bridge Video
- Lecture 14 : Principle Of Bulb Video
- Lecture 15 : Battery Video
-
09 Magnetism Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Biot Savart Law Video
- Lecture 03 : Right Hand Palm Rule Video
- Lecture 04 : Questions Video
- Lecture 05 : Sunday Test Discussion Video
- Lecture 06 : Ampere circuital law Video
- Lecture 07 : Magnetic Field Due To Solenoid Video
- Lecture 08 : Toroid Video
- Lecture 09 : Radius Of Circular Path Video
- Lecture 10 : Time Period T Video
- Lecture 11 : Total Magnetic Force Video
- Lecture 12 : Definition Of Ampere Video
- Lecture 13 : Magnetic Dipole Video
- Lecture 14 : Coulomb’s Law In Magnetism Video
- Lecture 15 : Questions And Moving Coil Galvanometer Video
- Lecture 16 : Potential Energy Of Magnetic Dipole Video
- Lecture 17 : Geographic Equator Video
- Lecture 18 : Magnetic Materials Video
- Lecture 19 : Questions Video
- Lecture 20 : Vibration Magnetometer Video
-
10 Nuclei Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Density of Nucleus Video
- Lecture 03 : Dinding Energy Per Nucleon Video
- Lecture 04 : Fast Breeder Reactor Video
- Lecture 05 : Radioactivity Video
- Lecture 06 : Decay Equation Video
- Lecture 07 : Nuclear Reactions Video
- Lecture 08 : Half Life Formula Video
- Lecture 09 : Activity Of A Sample A Or R Video
-
11 Atoms Video And Class Notes
-
12 Electromagnetic Induction Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Questions Video
- Lecture 03 : Lenz Law Video
- Lecture 04 : Condition Of Number Of EMI Video
- Lecture 05 : Self Induction Video
- Lecture 06 : Parallel Combination Video
- Lecture 07 : Different Fashion Of Coupling Video
- Lecture 08 : Direction of electric current Video
- Lecture 09 : Periodic emf Video
- Lecture 10 : Transformer Video
- Lecture 11 : Electromagnetic waves Video
- Lecture 12 : Maxwell equation Video
- Lecture 13 : Total anergy Video
- Lecture 14 : Sunday test discussion Video
- Lecture 15 : X ray productive by coolidge method Video
- Lecture 16 : characteristic spectrum of x ray Video
- Lecture 17 : Diffraction of x rays Video
-
13 Alternating current Video And Class Notes
- Lecture 01 : Introduction of alternating current Video
- Lecture 02 : Maximam value pick values Video
- Lecture 03: Leading and lagging concept Video
- Lecture 04: Different circuit of AC Video
- Lecture 05: Circuits Video
- Lecture 06: RLC circuit Video
- Lecture 07: Question Video
- Lecture 08 Power in AC current Video
- Lecture 09 Oscillation Video
-
14 Semiconductor Video And Class Notes
- Lecture 01 : Introduction Video
- Lecture 02 : Properties of semiconductor Video
- Lecture 03 : PN junction Video
- Lecture 04 : Reverse bias Video
- Lecture 05 : Full wave rectifier Video
- Lecture 06 : Zener diode Video
- Lecture 07 : Transistor Video
- Lecture 08 : Transistor configuration Video
- Lecture 09 : Application of transistor Video
- Lecture 10 : Characteristics of transistor Video
- Lecture 11 : Logic gate Video
- Lecture 12 : Universal gates Video
- Lecture 13 : Questions Video
Instructor
Instructor