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High School/JEE/NEET/IPhO Physics | 17-19 Yrs

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Electric Potential and Dipole

Module - 1 Electrostatics Potential Energy

Duration: 3.44 Min

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Module - 2 Interaction Energy of Two Particle System

Duration: 3.32 Min

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Module - 3 Interaction Energy of a System of Multiple Charges

Duration: 3.29 Min

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Module - 4 Distance of Closest Approach Between Two Charges

Duration: 9.27 Min

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Module - 5 Solved Example-1

Duration: 3.49 Min

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Module - 6 Solved Example-2

Duration: 1.39 Min

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Module - 7 Solved Example-3

Duration: 1.47 Min

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Module - 8 Solved Example-4

Duration: 3.55 Min

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Module - 9 Electric Potential

Duration: 4.55 Min

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Module - 10 Electric Potential due to a Point Charge in its Surrounding

Duration: 1.47 Min

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Module - 11 Electric Potential due to a Charged Extended Body

Duration: 2.18 Min

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Module - 12 Electric Potential due to a Uniformly Charged rod on its Axis

Duration: 3.21 Min

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Module - 13 Electric Potential due to a Uniformly Charged rod on its Equator

Duration: 5.07 Min

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Module - 14 Electric Potential due to a Uniformly Charged Ring

Duration: 5.52 Min

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Module - 15 Electric potential due to a Uniformly Charged Disc

Duration: 4.03 Min

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Module - 16 Potential Difference Between Two Points in Electric Field

Duration: 10.12 Min

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Module - 17 Solved Example-5

Duration: 1.06 Min

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Module - 18 Solved Example-6

Duration: 4.16 Min

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Module - 19 Solved Example-7

Duration: 2.05 Min

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Module - 20 Solved Example-8

Duration: 2.09 Min

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Module - 21 Solved Example-9

Duration: 2.18 Min

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Module - 22 Solved Example-10

Duration: 2.56 Min

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Module - 23 Relation in Electric Field and Electric Potential

Duration: 6.22 Min

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Module - 24 Solved Example-11

Duration: 2.04 Min

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Module - 25 Solved Example-12

Duration: 2.16 Min

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Module - 26 Solved Example-13

Duration: 1.27 Min

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Module - 27 Equipotential Surfaces

Duration: 6.03 Min

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Module - 28 Solved Example-14

Duration: 1.38 Min

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Module - 29 Solved Example-15

Duration: 2.12 Min

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Module - 30 Solved Example-16

Duration: 3.08 Min

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Module - 31 Electric Potential Inside a Metal Body

Duration: 3.26 Min

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Module - 32 Electric Potential due to a Charged Metal Sphere

Duration: 3.20 Min

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Module - 33 Electric Potential due to a Uniformly Charged Sphere

Duration: 5.09 Min

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Module - 34 Solved Example-17

Duration: 2.58 Min

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Module - 35 Solved Example-18

Duration: 2.22 Min

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Module - 36 Solved Example-19

Duration: 3.31 Min

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Module - 37 Solved Example-20

Duration: 2.14 Min

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Module - 38 Electric Potential in a System of Concentric Shells

Duration: 5.09 Min

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Module - 39 Electric Dipole

Duration: 2.55 Min

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Module - 40 Electric Dipole Placed in a Uniform Electric Field

Duration: 3.46 Min

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Module - 41 Interaction Energy of an Electric Dipole in Electric Field

Duration: 4.09 Min

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Module - 42 Work Done in Changing Orientation of a Dipole in Electric Field

Duration: 3.14 Min

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Module - 43 Force on an Electric Dipole in Non-uniform Electric Field

Duration: 3.06 Min

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Module - 44 Electric Field due to an Electric Dipole

Duration: 10.48 Min

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Module - 45 Electric Field at Axial and Equatorial Points of a Dipole

Duration: 3.32 Min

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Module - 46 Electric Potential due to a Dipole in its Surrounding

Duration: 2.11 Min

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Module - 47 Stable and Unstable Equilibrium of a Dipole in Electric Field

Duration: 5.57 Min

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Module - 48 Solved Example-21

Duration: 3.27 Min

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Module - 49 Solved Example-22

Duration: 2.55 Min

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Module - 50 Solved Example-23

Duration: 3.19 Min

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Module - 51 Solved Example-24

Duration: 3.27 Min

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Module - 52 Solved Example-25

Duration: 2.16 Min

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Module - 53 Solved Example-26

Duration: 2.05 Min

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Module - 54 Electric Pressure on a Charged Metal Surface

Duration: 9.21 Min

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Module - 55 Electric Pressure on a Charged Surface due to External Electric Field

Duration: 2.54 Min

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Module - 56 Force Between Hemispherical Sections of a Charged Shell

Duration: 4.17 Min

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if a hollow sphere with radius r1 and r2 is taken where r2 is greater than r1 the a +q charge is kept at centre the a pt c locate at a distance r from centre (r1 is smaller than r and r2 is greater than r) then potential at that pt c will be

9 years ago by ameyayerpude

Ans 1 ->

You can find the electric field outside the sphere as q/(4*pi*eo*r^2) and inside the shell material as q/(4*pi*eo*er*r^2) and use integration (E.dr) from inf to r2 then from r2 to r to get the potential at point c.

9 years ago by Physics Galaxy

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Video Lectures

High School/JEE/NEET/IPhO Physics | 17-19 Yrs

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