Two point charges q_(1) and q_(2) are kept r distance apart in a uniform external electric field vecE. Find the amount of work done in assembling this system of charges.

Two point charges q_(1) and q_(2) are kept r distance apart in a unifo

1.	Two point charges q_(1) and q_(2) are kept r distance apart in a uniform external electric field vecE. Find the amount of work done in assembling this system of charges.
Answer» Solution :Let a system of two point charges `q_(1) and q_(2)` is brought from INFINITY to the points `vecr_(1) and vecr_(2)` respectively in an external electric field `vecE`, where `\|vecr_(1)-vecr_(2)\|=r`, the distance between the two charge. We first calculate the WORK DONE in BRINGING the charge `q_(1)` from infinity to `vecr_(1)`. work done in this step is `W_(1)=q_(1)V(vecr_(1))`, where `V(vecr_(1))` is the electrostatic potential at `vecr_(1)`. Now we consider the work done in bringing `q_(2)` to `vecr_(2)`. In this step work `W_(2)` is done against the electric field and work `W_(12)` is done against the field due to charge `q_(1)`. Obviously `W_(2)=q_(2)V(vecr_(2))`, where `V(vecr_(2))` is the electrostatic potential at `vecr_(2)` and `W_(12)=(q_(1)q_(2))/(4pi in_(0)r)`, where `r=\|vecr_(1)-vecr_(2)\|= ` distance between `q_(1) and q_(2)` `therefore` Total work done in bringing `q_(2)` to `vecr_(2)=W_(2)+W_(12)=q_(2)V(vecr_(2))+(q_(1)q_(2))/(4pi in_(0)r)`

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Two point charges q_(1) and q_(2) are kept r distance apart in a uniform external electric field vecE. Find the amount of work done in assembling this system of charges.

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