Solve

Guides

0

You visited us 0 times! Enjoying our articles? Unlock Full Access!

Question

For the isolated charged conductor shown in figure, the potentials at points A,B,C and D are $$V_A, V_B, V_C$$ and $$V_D$$ respectively. Then :

A

$$V_A = V_B > V_C > V_D$$

B

$$ V_D > V_C > V_B > V_A $$

C

$$V_D > V_C > V_B > V_A $$

D

$$V_D = V_C = V_B = V_A $$

Open in App

Solution

Verified by Toppr

Correct option is A. $$V_A = V_B > V_C > V_D$$

Was this answer helpful?

0

Similar Questions

Q1

For the isolated charged conductor shown in the figure, the potentials at points

A, B, C

and

D

are

V A, V B, V C

and

V D

respectively. Then

View Solution

Q2

Choose the correct relation regarding potential. Here A, B, C and D all are at equal distance from point O, figure. Then ( Assume the dipole to be short)

View Solution

Q3

20. figure shows four points A,B,C and D in uniform electric field E. the lines AB and CD are perpendicular and BC and AD are parallel to the field lines. if Va,Vb,Vc and Vd are electric potential at A,B,C and D. choose the correct option. (1) Va=Vb=Vc=Vd (2) (Va=Vb)>(Vc=Vd) (3) (Va=Vb)<(Vc=Vd) (4) Va>Vb=Vc>Vd

View Solution

Q4

Choose the correct relation regarding potential of an electric dipole. Here A, B, C and D all are at equal distance from point O which is much larger than the dimensions of the dipole. Then

View Solution

Q5

In the circuit shown, the diodes are ideal.

A_{1}

and

A_{2}

are ammeters of resistance

5 Ω

each. The potentials of the points A, B, C and D are

V_{A}, V_{B}, V_{C}

and

V_{D}

respectively.

| V_{A} - V_{B} | = 10 V

View Solution