Starting a new Lecture Notes Series on Advance Illustrations on Electric Force and Electric Field
Youtube Lecture Playlist CreditsChannel Name: Physics GalaxyFaculty Name: Ashish Arora Sir
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Advance Illustrations on Electric Force and Electric Field By Lecture Notes together!
Lecture 1: Flux Through a Circle
Lecture 2: Expansion of Ring due to Charge
Lecture 3: Force Between Skew Lines
Lecture 4: Oscillating Dipole in a Cup
Lecture 5: Electric Potential at a Co-ordinate
Lecture 6: Electric Field due to a Dipole
Lecture 7: Force Between two Electric Dipoles
Lecture 8: Potential due to a Hollowed Sphere
Lecture 9: Oscillating Charged Ball
Lecture 10: Free Ball at a Vertex of n-gon
Lecture 11: Zero Potential Locus
Lecture 12: Electric Line from One Charge to Another
Lecture 13: Electric Potential at the Edge of Disc
Lecture 14: Work in Charge Transportation
Lecture 15: Electric Field Inside a Cavity
Lecture 16: Force Between Hemispherical Shells
Lecture 17: Rotating Rod with a Dipole
Lecture 18: Electric Field in Overlapping
Lecture 19: Holding Two Halves of a Shell
Lecture 20: Uniformly Charged Hollow Sphere
Lecture 21: Null Point in Surrounding of Dipole
Lecture 22: Interaction Energy of Two Dipoles
Lecture 23: Equipotential Surface in Surrounding
Lecture 24: Earthing of a System of Spheres
Lecture 25: Connecting Metal Body Inside a Shell
Lecture 26: Potential at Common Centre
Lecture 27: Electric Flux Through a Cylinder
Lecture 28: Potential Difference Inside & Outside
Lecture 29: Equilibrium Inside a Liquid
Lecture 30: Due to a Non-uniformly Charged Ball
Lecture 31: Distance of Closest Approach in Space
Lecture 32: Non-Uniformly Charged Rod
Lecture 33: Projectile Above a Charged Sheet
Lecture 34: Uniform Circular Motion in Electric Field
Lecture 35: Vertical Looping in Electric Field
Lecture 36: Equilibrium Over a Square
Lecture 37: Distance of Closest Approach
Lecture 38: Potential Inside a Charged Sphere
Lecture 39: Vertical Looping in Electric Field 2
Lecture 40: Connecting Isolated Spheres
Lecture 41: Coalescing Charged Mercury Drops
Lecture 42: Non-uniformly Charged Ring
Lecture 43: Electric field due to Polarization