(D) The electric field $\vec{E}$ is uniform and directed along the positive $Y$-axis.Points $A(0,0)$ and $C(2,0)$ lie on the $X$-axis,which is perpend

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(D) The electric field $\vec{E}$ is uniform and directed along the positive $Y$-axis.Points $A(0,0)$ and $C(2,0)$ lie on the $X$-axis,which is perpendicular to the direction of the electric field. Therefore,the electric potential at these points is the same,i.e.,$V_A = V_C$.The electric potential decreases in the direction of the electric field. Since point $B(0,2)$ is at a higher $Y$-coordinate than points $A$ and $C$,it is at a lower potential.Thus,$V_A = V_C > V_B$.

Class 12 Physics Electric Potential and Capacitance Equipotential Surface

Easy

$A$ uniform electric field is directed along the $Y$-axis. Consider point $A$ as the origin $(0,0) \text{ m}$. The coordinates of point $B$ are $(0,2) \text{ m}$. The coordinates of point $C$ are $(2,0) \text{ m}$. If the electric potentials at points $A, B,$ and $C$ are $V_A, V_B,$ and $V_C$ respectively,which of the following options is correct?

GUJCET 2007 All GUJCET

A
$V_A = V_C < V_B$
B
$V_A = V_B = V_C$
C
$V_A = V_B > V_C$
D
$V_A = V_C > V_B$

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Electric Potential and Capacitance

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Equipotential Surface

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Assertion: Two equipotential surfaces cannot cut each other.
Reason: Two equipotential surfaces are parallel to each other.

EasyAIIMS 2011

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Assertion $(A):$ $A$ spherical equipotential surface is not possible for a point charge.
Reason $(R):$ $A$ spherical equipotential surface is possible inside a spherical capacitor.

MediumAIIMS 2015

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The figure shows three points $A$,$B$,and $C$ in a region of uniform electric field $\overrightarrow{E}$. The line $AB$ is perpendicular and $BC$ is parallel to the field lines. Which of the following relations holds good? Let $V_A$,$V_B$,and $V_C$ represent the electric potential at points $A$,$B$,and $C$ respectively.

Easy

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$A$ uniform electric field pointing in the positive $x$-direction exists in a region. Let $A$ be the origin,$B$ be the point on the $x$-axis at $x = +1 \, cm$,and $C$ be the point on the $y$-axis at $y = +1 \, cm$. Then the potentials at the points $A$,$B$,and $C$ satisfy

EasyIIT 2001

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Work done in moving a positive charge on an equipotential surface is

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Assertion: Two equipotential surfaces cannot cut each other.Reason: Two equipotential surfaces are parallel to each other.

Assertion $(A):$ $A$ spherical equipotential surface is not possible for a point charge.Reason $(R):$ $A$ spherical equipotential surface is possible inside a spherical capacitor.

$A$ uniform electric field pointing in the positive $x$-direction exists in a region. Let $A$ be the origin,$B$ be the point on the $x$-axis at $x = +1 \, cm$,and $C$ be the point on the $y$-axis at $y = +1 \, cm$. Then the potentials at the points $A$,$B$,and $C$ satisfy

Work done in moving a positive charge on an equipotential surface is

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Assertion: Two equipotential surfaces cannot cut each other.
Reason: Two equipotential surfaces are parallel to each other.

Assertion $(A):$ $A$ spherical equipotential surface is not possible for a point charge.
Reason $(R):$ $A$ spherical equipotential surface is possible inside a spherical capacitor.