The electric potential V at any point (x...

The electric potential `V` at any point `(x,y,z)`, all in meters in space is given by `V= 4x^(2)` volt. The electric field at the point `(1,0,2)` in volt//meter is

A

16 along positve x-axis

B

8 along negative x-axis

C

8 along positve x-axis

D

16 along negative x-axis

Text Solution

Verified by Experts

The correct Answer is:

B

Promotional Banner

Promotional Banner

Topper's Solved these Questions

ELECTROSTATIC POTENTIAL AND CAPACITANCE
AAKASH INSTITUTE|Exercise ASSIGNMENT SECTION - D|13 Videos
ELECTROSTATIC POTENTIAL AND CAPACITANCE
AAKASH INSTITUTE|Exercise ASSIGNMENT SECTION - B|38 Videos
ELECTROMAGNETIC WAVES
AAKASH INSTITUTE|Exercise ASSIGNMENT SECTION - D Assertion-Reason Type Questions|25 Videos
GRAVITATION
AAKASH INSTITUTE|Exercise ASSIGNMENT SECTION - D (ASSERTION-REASON TYPE QUESTIONS)|16 Videos

Similar Questions

Explore conceptually related problems

The electric potential V at any point x, y, z (all in meters) in space is given by V=4x^2 volts. The electric field at the point (1m, 0, 2m) is…………….. V//m .

The electric potential V at any point x,y,z (all in metre) in space is given by V=4x^2 volt. The electric field at the point (1m, 0, 2m) is …………… V/m .

The electric potential V at any point ( x,y, z) in space is given by V = 4 x^(2) V . The electric field E (in ( V )/( m )) at the point ( 1,0,2) is

The electrostatic potential V at any point (x, y, z) in space is given by V=4x^(2)

The electric potential at any point x,y an z in metres is given by V = 3x^(2) . The electric field at a point (2,0,1) is

The electric potential at a point (x,y,z) is given by V=-s^(2)

The electric potential V at any point (x, y) in a plane is given by V=5x^(2)-4y^(2) volt. Find the magnitude of electric field intensity at the point (1m, 2m).

Potential in the x-y plane is given as V=5(x^(2)+xy) volts. Find the electric field at the point (1, -2).

AAKASH INSTITUTE-ELECTROSTATIC POTENTIAL AND CAPACITANCE -ASSIGNMENT SECTION - C

Four electric charges +q, +q, -q and -q are placed at the corners of a...
Text Solution
|
Three cahrges each+q, are placed at the corners of an isosceles trinag...
Text Solution
|
The electric potential V at any point (x,y,z), all in meters in space ...
Text Solution
|
A series combination of n(1) capacitors, each of value C(1), is charge...
Text Solution
|
A condenser of capacity C is charged to a potential difference of V(1...
Text Solution
|
Two parallel metal plates having charges +Q and -Q face each other at ...
Text Solution
|
Three concentric spherical shells have radii a, b and c(a lt b lt c) a...
Text Solution
|
Three capacitors each of capacitance C and of breakdown voltage V are ...
Text Solution
|
The electirc potential at a point (x, y, z) is given by V = -x^(2)y ...
Text Solution
|
The mean free path of electrons in a metal is 4 xx 10^(-8)m The elect...
Text Solution
|
The energy required to charge a parallel plate condenser of plate sepa...
Text Solution
|
The electric potential at a point in free space due to a charge Q coul...
Text Solution
|
Charges +q and -q are placed at points A and B respectively which are ...
Text Solution
|
Two condensers, one of capacity C and the other of capacity C//2 are c...
Text Solution
|
A parallel plate air capacitor is charged to a potential difference of...
Text Solution
|
A network of four capacitors of capacity equal to C(1) = C, C(2) = 2C,...
Text Solution
|
As per this diagram a point charge +q is placed at the origin O. Work ...
Text Solution
|
Two charges q(1) and q(2) are placed 30 cm apart, as shown in the figu...
Text Solution
|
An electric dipole of dipole moment p is aligned parallel to a uniform...
Text Solution
|
Which of the following is not true ?
Text Solution
|