Physics, asked by turukanivijetha, 9 months ago

Derive the expression for force of interaction between linear charged conductor (of length l, uniform charge density lambda) and point charge q. Which is placed at distance ‘r’ from the conductor.

Answers

Answered by rahulkangade0
1

Answer:

ANSWER

Gauss's law :

The law relates the flux through any closed surface and the net charge enclosed with in the surface. The law states that the total flux of the electric field E over any closed surface is equal to

ε

0

1

times the net charge enclosed by the surface.

ϕ=

ε

0

q

This closed imaginary surface is called Gaussian surface. Gauss's law tells us that the flux of E through a closed surface S depends only on the value of net charge inside the surface and not on the location of the charges. Charges outside the surface will not contribute to flux.

Electric field due to an infinitely long straight uniformly charged wire :

Consider an uniformly charged wire of infinite length having a constant linear charge density λ (Charge per unit length). Let P be a point at a distance r from the wire and E be the electric field at the point P. A cylinder of length l, radius r, closed at each end by plane caps normal to the axis is chosen as Gaussian surface. Consider a very small area ds on the Gaussian surface. By symmetry, the magnitude of the electric field will be the same at all points on the curved surface of the cylinder and directed radially outward.

E

and

ds

are along the same direction.

The electric flux (ϕ) through curved surface =∮Edscosθ

ϕ=∮Eds [∵θ=0;cosθ=1]

=E(2rπl) [The surface area of the curved part is ] since

E

and

ds

are right angles 2πrl to each other, the electric flux through the plane caps =0.

∴ Total flux through the Gaussian surface, ϕ=E(2πrl). The net charge enclosed by Gaussian surface is, q=λl

∴ By Gauss's law,

=E(2πrl)

ε

0

λl

or E=

2πε

0

r

λ

The direction of electric field E is radially outward, if line charge is positive and inward, if the line charge is negative.

Explanation:

Thank You

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