For a given surface the Gauss's law is s...

For a given surface the Gauss's law is stated as`oint vecE.dvecA=0`. From this we can conclude that

E is necessarily zero on the surface

E is perpendicular to the surface at every point

The total flux through the surface is zero

The flux is only going out to the surface

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

ELECTROSTATICS
DC PANDEY ENGLISH|Exercise Taking it together|105 Videos
ELECTROSTATICS
DC PANDEY ENGLISH|Exercise Assertion and Reason|15 Videos
ELECTROSTATICS
DC PANDEY ENGLISH|Exercise Check point 1.4|10 Videos
ELECTROSTATIC POTENTIAL AND CAPACITORS
DC PANDEY ENGLISH|Exercise (C) Chapter exercises|50 Videos
GRAVITATION
DC PANDEY ENGLISH|Exercise All Questions|135 Videos

Similar Questions

Explore conceptually related problems

Gauss’s law states that

The surface considered for Gauss's law is called

In a certain region of space, the electric field is zero. From this, we can conclude that the electric potential in this region is:

Tension in the cable supporting an elevator, is equal to the weight of the elevator. From this, we can conclude that the elevator is going up or down with a

five charge q_(1),q_(2),q_(3),q_(4) and q_(5) are fixed at their positions as shown in figure . s is Gaussian surface .The Gauss's law is given by ointvec(E).vec(ds)=(q)/(epsilon_(0)) Which of the following statement is correct?

Displacement time graph of a particle moving in a straight line is as shown in figure. From the graph we can conclude that work done on the block is : .

Five charges q_(1),q_(2),q_(3),q_(4)andq_(5) are fixed at their positions as shown in figure. S is Gaussian surface. The Gauss's law is given by ointundersetSvecE*vec(ds)=q/epsilon_(0) . Which of the following statements is correct?

At time t=0 , a particle is at (-1m, 2m) and at t=2s it is at (-4m,6m) . From this we can conclude that in the given time interval.

A charge Q is placed at the centre of an inaginary hemispherical surface. Using symmetry arguments and the Gauss's law, find the flux of the electric field due to this charge through the surface of the hemisphere (figure ).

DC PANDEY ENGLISH-ELECTROSTATICS-Check point 1.5

The law goverening electrostatics is coulomb's law.In priciple coulomb...
Text Solution
|
A surface element vec(ds) = 5 hat(i) is placed in an electric field v...
Text Solution
|
A cube of side a is placed in a uniform electric field E = E(0) hat(i)...
Text Solution
|
Flux coming out from a positive unit charge placed in air, is
Text Solution
|
If the electric flux entering and leaving an enclosed surface respecti...
Text Solution
|
Charge of 2 C is placed at the centre of a cube. What is the electric ...
Text Solution
|
For a given surface the Gauss's law is stated asoint vecE.dvecA=0. Fro...
Text Solution
|
The total electric flux emanating from a closed surface enclosing an a...
Text Solution
|
The inward and outward electric flux for a closed surface unit of N-m^...
Text Solution
|
If the flux of the electric field through a closed surface is zero,
Text Solution
|
Consider the charge configuration and a spherical Gaussian surface as ...
Text Solution
|
q(1),q(2),q(3) and q(4) are point charges located at point as shown in...
Text Solution
|
The Gaussian surface for calculating the electric field due to a charg...
Text Solution
|
If Coulomb's law involved 1/r^3 instead of 1/r^2, would Gauss's law st...
Text Solution
|
Two parallel infinite line charges with linear charge densities +lambd...
Text Solution
|
An infinite line charge produces a field of 9xx10^(4) N/C at a distanc...
Text Solution
|
A charge of 17.7 xx 10^(-4)C is distributed uniformly over a large she...
Text Solution
|
From what distance should a 100 eV electron be fired towards a large m...
Text Solution
|
If the field near the earth's surface is 300V m^(-1) directed downward...
Text Solution
|
A thin spherical shell of metal has a radius of 0.25 m and carries a c...
Text Solution
|