Define the term 'drift velocity' of char...

Define the term 'drift velocity' of charge carriers in a conductor and wire its relationship with the current flowing through it.

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In a current-carrying conductor, a charged particle is accelerated by an electric field. It also undergoes frequent collisions with the stationary ions of the wire material. These two effects result in a very slow net motion (drift) of moving charged particles in the direction of the electric force. This motion is described by the drift velocity `(V_(d))`. The relationship of drift velocity with current is given by,
`I=n^(c)AV_(d)`
Here, I is the current following through the conductor.
n is the number density of an electron.
A is the area of the conductor. e is the charge of the electron.

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Mobility of charge carrier in conductor is

directly proportional to E, Inversely proportional to `v_d`

inversely proportional to E, directly proportional to `v_d`

directly proportional to both `v_d` and E

Inversely proportional to both `v-d` and E

Define the term 'drift velocity' of charge carriers in a conductor and wire its relationship with the current flowing through it.

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