Problem:
In identical spherical droplets of water, each charged to the
same potential V, merge to form a larger droplet. What will be its
potential?
Solution:
- Concepts:
The potential of a spherically symmetric charge distribution of finite radius
R.
- Reasoning:
The potential at the surface of a spherically symmetric charge distribution is
V = kQ/R.
As we combine n drops, Q and R change.
- Details of the calculation:
We assume that initially the drops are very far apart, so that we can neglect
their interactions.
For one drop: V = kQ/R
For n drops: R --> R' = n(1/3)R, Q --> Q' = nQ
V' = kQ'/R' = knQ/(n(1/3)R) = n(2/3)V.