1 Answer

Benichka · Answer 1 · 2023-09-26T12:02:12+0000

Answer:

$\huge\underline{\red{A}\blue{n}\pink{s}\purple{w}\orange{e}\green{r} -}$

before looking at what the question says ,

let's have some general information related to the topic of the question !

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$\implies \:$ Electric field refers to the force generated by a nearby charge in the surroundings.

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$\implies \:$ Mathematically ,

Electric field =
$(Kq)/(r^(2)) \\$

where ,

K = coulomb's constant

q = magnitude of charge

r = distance between the opposite terminals

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$\implies \:$ Dipole moment , P = 2qd

where ,

q = magnitude of charges

d = distance between the charges

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$\implies \:$ positive charge tends to throw the field away from it while negative charge tends to pull the field towards it !

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seems like enough of information , so now let's look at the derivation !

refer the attachments in order to see the derivation !

Final answer -

$\bold\pink{E = \frac{2kp}{(x {}^(2) - d {}^(2) ) {}^(2) } } \\$

while , for a short dipole

$\bold\pink{E = \frac{2pk}{x {}^(3) }} \\$

hope helpful :D

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