A point charge q is held at the centre of a circle of radius r . B, C are two points on the circumference of

Q: A point charge $q$ is held at the centre of a circle of radius $r . B, C$ are two points on the circumference of the circle and $A$ is a point outside the circle. If $W_{A B}$ represents work done by electric field in taking a charge $q_0$ from $A$ to $B$ and $W_{A C}$ represents the workdone from $A$ to $C$, then

c (c) $W_{A B}=U_B-U_A=q_0\left(V_B-V_A\right)$ $W_{A C}=U_C-U_A=q_0\left(V_C-V_A\right)$ $\text { As } V_B-V_C$ $W_{A B}=W_{A C}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A point charge $q$ is held at the centre of a circle of radius $r . B, C$ are two points on the circumference of the circle and $A$ is a point outside the circle. If $W_{A B}$ represents work done by electric field in taking a charge $q_0$ from $A$ to $B$ and $W_{A C}$ represents the workdone from $A$ to $C$, then

A$W_{A B} > W_{A C}$
B$W_{A B} < W_{A C}$
C$W_{A B}=W_{A C} \neq 0$
D$W_{A B}=W_{A C}=0$

Medium

STD 11 Science
NEET
STD 12 - 2. Electric potential and capacitance
Physics

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