Find the electric flux through the surface in the following cases: An uniform electric field of intensity 6 × 10 3 N / C is directed along, X -axis. The length and breadth of a rectangular plane surface is 1 m and 0 . 5 m respectively. (ii) When the surface is parallel to X Y -plane.

Given, E l e c t r i c f i e l d o f d e n s i t y E = 6 × 10 3 N / C L e n g t h o f a r e c tan g u l a r p l a n e s u r f a c e l = 1 m B r e a d t h o f a r e c tan g u l a r p l a n e s u r f a c e b = 0 . 5 m θ = 60 ∘ Area of rectangular plane surface, A = l × b = 1 × 0 . 5 Therefore, electric flux is given by, ϕ = E A cos θ = 6 × 10 3 × 1 × 0 . 5 × cos 60 ∘ ⇒ ϕ = 3 × 10 3 × 1 2 = 1 . 5 × 10 3 N m 2 C - 1

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12th West Bengal Board

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Calculate the electric potential due to a
(v) infinite plane sheet of charge with uniform surface charge density at a point near to it.

Important Questions on Gauss' Law and its Application

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12th West Bengal Board

IMPORTANT

A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 14

Calculate the electric potential energy of a uniformly charged spherical shell.

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12th West Bengal Board

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A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 15

Calculate the electrical potential energy of a uniformly charged sphere.

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12th West Bengal Board

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A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 1

A ring of radius

1 m

is placed in an uniform electric field such that the electric flux through it is maximum. If the maximum flux is

2 \times 10^{4} {Nm}^{2} / C

, what is the intensity of the electric field?

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12th West Bengal Board

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A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 2

An uniform electric field of intensity

6 \times 10^{3} N / C

is directed along,

X

-axis. The length and breadth of a rectangular plane surface is

1 m

and

0.5 m

respectively. Find the electric flux through the surface in the following cases:

(1) when the surface is parallel to $Y Z$ -plane.

MEDIUM

12th West Bengal Board

IMPORTANT

A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 2

Find the electric flux through the surface in the following cases:

An uniform electric field of intensity $6 \times 10^{3} N / C$ is directed along, $X$ -axis. The length and breadth of a rectangular plane surface is $1 m$ and $0.5 m$ respectively.

(ii) When the surface is parallel to $X Y$ -plane.

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12th West Bengal Board

IMPORTANT

A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 2

An uniform electric field of intensity

6 \times 10^{3} N / C

is directed along,

X

-axis. The length and breadth of a rectangular plane surface is

1 m

and

0.5 m

respectively. Find the electric flux through the surface in the following cases:

(c) the length of the surface is parallel to $Y$ -axis, but the normal drawn to it is inclined to the $X$ -axis at an angle of $60^{°}$ .

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12th West Bengal Board

IMPORTANT

A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 3

A small metal sphere carrying charge $+ Q$ is located at the centre of a spherical cavity in a large uncharged metal sphere as shown in the figure, Fig. $3.72$ . Use Gauss's law to find electric field at points $P_{1}$ and $P_{2}$ .

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12th West Bengal Board

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A Text Book of PHYSICS PART 2 : CLASS 12>Chapter 3 - Gauss' Law and its Application>EXERCISE 3>Q 4

8

spherical liquid drops each of

2 mm

diameter with

5

microstat coulomb coalesce to form a simple drop. What is potential in volts at the surface of the drop so formed?

Calculate the electric potential due to a (v) infinite plane sheet of charge with uniform surface charge density at a point near to it.

Important Questions on Gauss' Law and its Application

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Calculate the electric potential due to a
(v) infinite plane sheet of charge with uniform surface charge density at a point near to it.