A regular hexagon of side 10 cm has a ch...

A regular hexagon of side 10 cm has a charge `5 muC` at each of its vertices. Calculate the potential at the centre of the hexagon.

Topper's Solved these Questions

ELECTRIC POTENTIAL
MODERN PUBLICATION|Exercise EXERCISE|38 Videos
ELECTRIC FIELD
MODERN PUBLICATION|Exercise EXERCISE|95 Videos
ELECTRICAL MEASUREMENTS
MODERN PUBLICATION|Exercise EXERCISE|44 Videos

Similar Questions

Explore conceptually related problems

A hexagon of side 0.1 m has a charge 10 mu C at each of its vertices. Calculate the electric potential at the centre of the hexagon.

A cube of side b has a charge q at each of its vertices. Determine the potential and electric field due to this charge array at the centre of the cube.

A hollow metallic sphere of radius 10 cm is charged, such that potential of its surface is 70 V. The potential at the centre of the sphere would be

A hollow metal sphere of radius 5 cm is charged, such that the potential on its surfae is 10 V. The potential at the centre of the sphere is

A metal wire is bent into a circle of radius 10 cm. It is given a charge of 200 muC , which spreads on it uniformly, Calculate the electric potential at its centre.

Four point charges 16muC, - 16muC, 16muC and -16muC are located at the corners of a square of each side 10 cm. Find the vlaue of electric field intensity and electric potential at the centre of the square.

The radii of two charged metallic sphers are 5 cm and 10 cm, Each has a charge of 75muC . They are connected by a conducting wire. Calculate common potential of the spheres after connecting.

Five point charges, each having a charge q are placed on the five croners A,B,C, D and E of a regular hexagon ABCDEF having each side of length a. Find the electric field at the centre of the hexagon.

The centre of a regular hexagon is at the point z = i. If one of its vertices is at 2 + i, then the adjacent vertices of 2 + i are at the points :

MODERN PUBLICATION-ELECTRIC POTENTIAL-EXERCISE

A regular hexagon of side 10 cm has a charge 5 muC at each of its vert...
Text Solution
|
Find an expression for line integral of electric intensity.
Text Solution
|
The work done in moving a positive charge on an equipotential surface ...
Text Solution
|
Show that the work done in moving a unit charge along a closed path is...
Text Solution
|
Derive an expression for electric potential at a point due to a point ...
Text Solution
|
Define electric potential. What is the SI unit of potential? Obtain an...
Text Solution
|
Define electric potential at a point. Derive an expression for the pot...
Text Solution
|
Derive an expression for the electric potential at a point along the a...
Text Solution
|
Derive an expression for electric field intensity at a distance r from...
Text Solution
|
Deduce an expression for electric potential due to an electric dipole ...
Text Solution
|
Deduce an expression for electric potential due to an electric dipole ...
Text Solution
|
How is electric field at a point related to potential gradient?
Text Solution
|
How is electric field at a point related to potential gradient?
Text Solution
|
What is the shape of equipotential surfaces for a uniform electric fie...
Text Solution
|
Draw the equipotential surfaces due to an electric dipole. Locate the ...
Text Solution
|
Obtain an expression for potential energy of the configuration of thr...
Text Solution
|
Depict the equipotential surfaces for a system of two identical positi...
Text Solution
|
Deduce the expression for the potential energy of a system of two poin...
Text Solution
|
Two uniformly large parallel thin plates having charge densities +sigm...
Text Solution
|
Two point charges q1 and q2 are kept at a distance of r(12) in air. De...
Text Solution
|
Derive an expression for potential at a point due to a group of point ...
Text Solution
|