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I) 12 21.4 3) 36 4 ) 63. Two electric di...

I) 12 21.4 3) 36 4 ) 63. Two electric dipoles, A, B with respective dipole moments d = -4qaî and do = -2qai placed on the x-axis with a separation R, as shown in the figure - RX A B The distance from A at which both of them produce the same potential is : √2RR RR 6) 1) 12+12) 12 +1 3) 12–1 4) 12-1 11); 16) 21) . : :h ti

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Two electric dipoles, A, B with respective dipole moments d_(A)=-4qahati and d_(B)=-2qahati are placed on the x-axis with a separation R, as shown in the figure. The distance from A at which both of them produce the same potential is:

Two electric dipoles, A, B with respective dipole moments d_(A)=-4qahati and d_(B)=-2qahati are placed on the x-axis with a separation R, as shown in the figure. The distance from A at which both of them product h same potential is:

Two electric dipoles, A, B with respective dipole moments vec(d_(A))=-4" qa "hati and vec(d_(B))=-2" qa "hati are placed on the x-axis with a seperation R, as shown in the figure The distance from A at which both of them produce the same potential is :

Two electric dipoles, A, B with respective dipole moments vec(d_(A))=-4" qa "hati and vec(d_(B))=-2" qa "hati are placed on the x-axis with a seperation R, as shown in the figure The distance from A at which both of them produce the same potential is :

The electric potential at a distance of 3 m on the axis of a short dipole of dipole moment 4 xx 10^(-12) coulomb-metre is

(5 1/4-3 1/3)= (12)/(23) (b) 2 1(11)/(12) (d) (11)/(12)

The electric potential at a distance of 3m on the axis of a short dipole of dipole moment 4 xx 10^(-12) coloumb -metre is

(5 1/4-3 1/3) = (a)(12/23) (b) 2 (c) (1 11/12) (d) (11/12)

The maximum and minimum values of the function |sin 4x+3| are....respectively. a) 1,2 b) 4,2 c) 2,4 d) -1,1