Drift Velocity Formula: Characterization, Net Velocity of Electron, How to Calculate, Relation Between Drift Velocity and Electric Current | CollegeSearch

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Drift Velocity Formula: Characterization, Net Velocity of Electron, How to Calculate, Relation Between Drift Velocity and Electric Current

Nikita Parmar

Updated on 26th October, 2023 , 3 min read

Drift Velocity Formula Overview

As the name indicates, drift velocity describes the gradual migration of electrons in a conductor when an emf is applied. Electrons travel randomly and collide with other electrons and atoms in a conductor rather than moving in a straight path. This energy exchange moves in the opposite direction from the current, enabling electricity to flow through the conductor.

What is Drift?

Drift is the sluggish approach to something or anything. Drift velocity is the average speed of charged particles moving through a medium as a result of an electric field.

Drift Velocity Formula

What is Drift Velocity?

Electrons and other subatomic particles constantly migrate in arbitrary ways. When exposed to an electric field, electrons do travel randomly, but they do so slowly in the direction of the applied electric field. The drift velocity refers to the overall speed of these electrons.

Drift Velocity Formula

Characterization of Drift Velocity 

the typical speed that charged particles, like electrons, travel at in a material when exposed to an electric field. M/s is the SI unit for drift velocity. Additionally, it is expressed as m2/(V.s).

Net Velocity of the Electrons in Drift Velocity Formula

Every conductible substance above absolute zero, such as metal, has a small number of unbound electrons moving at random velocities. When a potential is applied to a conductor, electrons tend to go in the direction of the positive potential, but they will bump into atoms along the way and either bounce back or lose part of their kinetic energy. However, the electric field will force the electrons to accelerate back, and these random collisions will continue. However, because the electric field causes the acceleration to always occur in the same direction, the electrons' net velocity will also always be in that same direction. Drift velocity may be determined using Ohm's law.

Each of these values is expressed in units of m/s, m2/(V.s), and V/m.

Drift Velocity Formula of an Electron

  1. The average speed that particles like electrons can reach while being affected by an electric field is known as the drift velocity.
  2. Since the particle is thought to be moving on a plane, its axial drift velocity may be used to describe it.
  3. Understanding the idea of drift velocity may be done by seeing the haphazard movement of free electrons moving through the conductor.
  4. These unbound electrons continue to flow randomly and erratically across the wire.
  5. However, when the conductor is subjected to an electric field, the randomly moving electrons experience some sort of electrical force that is applied in the direction of the area.
  6. The field causes the electrons to transition to a high potential while keeping their unpredictable mobility.
  7. Additionally, it has been shown that each electron travels at a certain velocity as it approaches the higher potential point of the conductor.
  8. This net velocity is also known as the electron drift velocity.
  9. Because the speed at which an electron moves is known as the drift velocity, the current produced by its drift movement in an electrically charged conductor is known as the drift current.
  10. The current that circulates through a conductor is known as a drift current.
  11. Due to collisions with other particles, charged particles moving through a conductor do not proceed in a straight path.
  12. As a consequence, the conductor's particles' typical speed is determined. The term for this is drift velocity.
  13. Free electrons acquire the average velocity under the influence of the electric field, which causes the electrons to wander.

How to Calculate the Drift Velocity Formula?

Drift Velocity Formula

Relation between Drift Velocity and Electric Current

Mobility is always positive and depends on the kind of charge carrier; an electron's drift velocity is often measured in units of 10-3 ms-1. Therefore, at this speed, it will take electrons approximately 17 minutes to go through a conductor that is 1 meter in length. However, amazingly, we can quickly turn on electrical gadgets in our homes with the flick of a switch since an electric current is established at the speed of light and not with drift velocity. When an electric light bulb is turned on, there is very little delay between the input and the output because, as soon as the electric field is generated, the current within the conductor begins flowing at the speed of light rather than the speed at which the electrons are wandering.

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