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PowerPedia:Lorentz force

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In physics, the Lorentz force is the force exerted on a charged particle in an electromagnetic field.

Table of contents

1 Description

2 Mathematics

3 Related concepts

4 Reference and external articles

5 See also

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Description

A particle will experience forces due to electric field and the magnetic field that will alter it path. The Lorentz force is a principle exploited in many devices including:

Cyclotrons and other circular path particle accelerators
Homopolar generators
Magnetrons
Magnetoplasmadynamic thrusters
Mass spectrometers

The Lorentz force can act on a current carrying conductor, in this case called Laplace Force, by the interaction of the conduction electrons with the atoms of the conductor material. This force is used in many devices including :

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Mathematics

The particle will experience a force due to electric field of qE, and due to the magnetic field qv × B. Combined they give the Lorentz force equation (or law):

${F} = q ({E} + {v} \times {B}),$

where

F is the force (in newtons)

E is the electric field (in volts per meter)

B is the magnetic field (in webers per square meter, or equivalently, teslas)

q is the electric charge of the particle (in coulombs)

v is the instantaneous velocity of the particle (in meters per second)

and × is the cross product.

Thus a positively charged particle will be accelerated in the same linear orientation as the E field, but will curve perpendicularly to the B field according to the right-hand rule.

Alternative form

Equivalently, we can express the Lorentz force law in terms of the electric charge density ρ and current density J as

${F} = \int_V ( \rho {E} + {J} \times {B}) dV$

Lorentz force in special relativity

When particle speeds approach the speed of light, the Lorentz force equation must be modified according to special relativity:

${d \left ( \gamma m {v} \right ) \over dt } = {F} = q ({E} + {v} \times {B}),$

where

$\gamma \equiv \frac{1}{\sqrt{1 - v^2/c^2}}$

is called the Lorentz factor and $c$ is the speed of light in a vacuum.

This expression differs from the expression obtained from the Lorentz force by a factor of $γ$ .

The change of energy due to the fields is

${d \left ( \gamma m c^2 \right ) \over dt } = q {E} \cdot {v} .$

Covariant form of the Lorentz force

The Lorentz force equation can be written in covariant form in terms of the field strength tensor (cgs units).

$m c { d u^{\alpha} \over { d \tau } } = { {} \over {} }F^{\alpha \beta} q u_{\beta}$

where m is the particle mass, q is the charge, and

$u_{\beta} = \eta_{\beta \alpha } u^{\alpha } = \eta_{\beta \alpha } { d x^{\alpha } \over {d \tau} }$

is the 4-velocity of the particle. Here, $τ$ is c times the proper time of the particle and $η$ is the Minkowski metric tensor. The fields can be transformed to a frame moving with constant relative velocity by:

$\acute{F}^{\mu \nu} = {\Lambda^{\mu}}_{\alpha} {\Lambda^{\nu}}_{\beta} F^{\alpha \beta} ,$

where ${\Lambda^{\mu}}_{\alpha}$ is a Lorentz transformation.

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Related concepts

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Reference and external articles

G
Web

Sites on Lorentz force (http://www.google.com/search?svnum=50&hl=en&lr=&safe=off&sa=N&tab=wi&q=Lorentz+force)
via Google Search

G
Image

Images of Lorentz force (http://www.google.com/images?svnum=50&hl=en&lr=&safe=off&sa=N&tab=wi&q=Lorentz+force)
via Google Image

G
groups

Newsgroups with Lorentz force (http://groups.google.com/groups?svnum=50&hl=en&lr=&safe=off&sa=N&tab=wi&q=Lorentz+force)
via Google Groups

General internet

Lorentz force (animation) (http://www.bigs.de/en/shop/htm/magnetf01.html) <http://www.bigs.de>
Wikipedia contributors (http://en.wikipedia.org/wiki/Special:Recentchanges), Wikipedia: The Free Encyclopedia. Wikimedia Foundation. <http://en.wikipedia.org>.
news://sci.physics Physical laws, properties, etc. Activity: High
news://sci.physics.electromag Electromagnetic theory and applications. Activity: Medium
news://sci.physics.relativity The theory of relativity. Activity: High

Books

Serway and Jewett, "Physics for Scientists and Engineers with Modern Physics" Thomson Brooks/Cole, 2004 ISBN 0-534-40846-X
Andre Koch and Torres Assis, "Weber's Electrodynamics" (Lorentz force laws (http://books.google.com/books?vid=ISBN0792331370&id=SpUHp9P9pxsC&pg=PA36&lpg=PA36&vq=&sig=8PZZT84uLhR-XcorhMx6gv8A9ow)), Springer, 1994. ISBN 0792331370
H.C. Sharma, Rajesh Kharb, Rajesh Sharma, "Comprehensive Physics for Engineers" (Lorentz force and magnetic induction (http://books.google.com/books?vid=ISBN8170081300&id=KERPyFbnjTkC&pg=PA332&lpg=PA332&dq=&sig=nLpb1Nho8lhqJhfXKBvmy-B4Kac)). Laxmi Publications, 2005.

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PowerPedia:Lorentz force

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Mathematics

Related concepts

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See also

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