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Draw equipotential surface for a d...

Draw equipotential surface for a dipole.

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To draw the equipotential surfaces for an electric dipole, we can follow these steps: ### Step-by-Step Solution: 1. **Understand the Concept of Equipotential Surface**: - An equipotential surface is defined as a surface where the electric potential is constant throughout. This means that any point on this surface has the same electric potential. 2. **Understand the Electric Dipole**: ...
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Equipotential surfaces

Draw an equipotential surface for a uniform electric field.

Draw the equipotential surfaces due to an isolated point charge.

Draw the equipotential surfaces due to an electric dipole. Locate the points where the potential due to the dipole is zero.

CBSE COMPLEMENTARY MATERIAL-ELECTROSTATICS AND CURRENT ELECTRICITY -NUMERICALS
  1. Draw equipotential surface for a dipole.

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  2. What should be the position of charge q = 5 mu C for it to be in...

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  3. Two point charges 4e and e each, at a separation r in air, exert force...

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  4. Two capacitors of capacitance 10 mu F and 20 muF are connected...

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  5. Two point charges 6 mu C and 2 mu C are separated by 3 cm i...

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  6. ABC is an equilateral triangle of side 10 cm. D is the mid poin...

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  7. A point charge of 2 muC is kept fixed at the origin. Anothe...

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  8. A 5 MeV alpha particle is projected towards a stationary nucl...

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  9. To what potential must a insulated sphere of radius 10 cm be...

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  10. A slab of material of dielectric constant K has the same area as the ...

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  11. A point charge developes an electric field of 40 N/C and a potential d...

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  12. Figure shows three circuits, each consisting of a switch and two capac...

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  13. For what value of C does the equivalent capacitance between A and B is...

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  14. A pendulum bob of mass 80 mg and carrying charge of 3 xx 10 ^(-8) C ...

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  15. Eight chraged water drops, each with a radius of 1 mm and a charge of ...

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  16. What potential difference must be applied to produce an electric field...

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  17. A 10 mu F capacitor can withstand a maximum voltage of 100 V acro...

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  18. Three concentric spherical metallic shells A, B and C of radii a, b an...

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  19. Four point charges are placed at the corners of the square of edge a a...

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  20. Find the potential at A and C in the following circuit :

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  21. Fig. shows two parallel plate capacitors X and Y having same area of p...

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