Two nearby points are at the same potent...

Two nearby points are at the same potential. What is the intensity of electric field in this region?

Text Solution

AI Generated Solution

To solve the question, "Two nearby points are at the same potential. What is the intensity of electric field in this region?", we can follow these steps: ### Step-by-Step Solution: 1. **Understanding Electric Potential**: - Electric potential (V) at a point is the amount of work done in bringing a unit positive charge from infinity to that point without any acceleration. - When two points are at the same potential, it means that there is no difference in electric potential between them. ...

Topper's Solved these Questions

ELECTRIC FIELD AND POTENTIAL
AAKASH SERIES|Exercise PROBLEMS (LEVEL-I)|13 Videos
ELECTRIC FIELD AND POTENTIAL
AAKASH SERIES|Exercise PROBLEMS (LEVEL-II)|26 Videos
ELECTRIC FIELD AND POTENTIAL
AAKASH SERIES|Exercise EXERCISE (SHORT ANSWER QUESTIONS)|6 Videos
ELECTRIC CHARGES AND FIELDS
AAKASH SERIES|Exercise Practice Exercise|57 Videos
ELECTROMAGNETIC INDUCTION
AAKASH SERIES|Exercise Additional Exercise|11 Videos

Similar Questions

Explore conceptually related problems

In a p-n junction, the thickness of depletion region is 2xx10^(-7)m and potential barrier across the junction is 0.20 V What will be the intensity of electric field in this region ?

A potential barrier of 0.3 V exists across a p-n junction. If the depletion region is 1 mu m wide, what is the intensity of electric field in this region?

The SI unit of electric field intensity is

In a certain region of space the electric potential V is known to be constant. Is the electric field in this region (a) positive (b) zero ,or (c ) negative ?

A potential barrier of 0.50 V exists across a P-N junction. If the depletion region is 5.0xx10^(-7)m , wide the intensity of the electric field in this region is

Two conducting spheres of radii R_(1) and R_(2) are at the same potential. The electric intensities on their surfaces are in the ratio of

A chargo q is uniformly distributed on a ring-shaped conductor of radius a. Find the field potential in an arbitrary point on the conductor's axis a distance I away from the plane in which the conductor lies. Using the relation between the potential and the field intensity, find the field intensity at this point.

In certain region of space with volume 0.2 m^3 the electric potential is found to be 5V throughout. The magnitude of electric field is this region is

The potential difference points a and B in the given uniform electric field is :

Assertion: The potential difference between the two conductors of a capacitor is small. Reason : A capacitor is so configured that it cofines the electric field lines within a small region of space.

AAKASH SERIES-ELECTRIC FIELD AND POTENTIAL-EXERCISE (VERY SHORT ANSWER QUESTIONS)

At the out set it appears as though the principle of superposition is ...
Text Solution
|
What is meant by the statement "charge is quantized".
Text Solution
|
Which of the following statement is not a similarity between electrost...
Text Solution
|
What similarities do electrostatic forces have to gravitational forces...
Text Solution
|
Can the relative permittivity of a medium be less than 1?
Text Solution
|
Vehicles carrying inflammable materials usually have chains that hang ...
Text Solution
|
Although ordinary rubber is insulator, the rubber tyres of air crafts ...
Text Solution
|
An uncharged body if kept in contact for some time with a charged body...
Text Solution
|
Electrostatic field lines of forces do not form closed loops. If they ...
Text Solution
|
The electric lines of force do not intersect. Why?
Text Solution
|
Consider two charges +q and -q placed at B and C of an equilateral tri...
Text Solution
|
A sure test of electrification is
Text Solution
|
Conductors and insulators
Text Solution
|
Can there be electric potential at a point with zero electric intensit...
Text Solution
|
Assertian: Basic difference between an electric line and magnetic line...
Text Solution
|
Fig shows electric lines of force emerging from a charged body. Is ele...
Text Solution
|
A charged particle is free to move in an electric field. Will it alway...
Text Solution
|
Fig shows the electric field lines due to a point positive charge. P a...
Text Solution
|
Electric field intensity in a given region is zero. Can we conclude th...
Text Solution
|
Two nearby points are at the same potential. What is the intensity of ...
Text Solution
|