Monge array: Difference between revisions

Latest revision as of 04:44, 27 January 2014

In the special theory of relativity four-force is a four-vector that replaces the classical force; the four-force is the four-vector defined as the change in four-momentum over the particle's own time:

F = \frac{d P}{d τ}

.

For a particle of constant invariant mass m > 0, $P = m U$ where $U = γ (c, u)$ is the four-velocity, so we can relate the four-force with the four-acceleration as in Newton's second law:

F = m A = (γ \frac{f \cdot u}{c}, γ f)

.

Here

f = \frac{d}{d t} (γ m u) = \frac{d p}{d t}

and

f \cdot u = \frac{d}{d t} (γ m c^{2}) = \frac{d E}{d t}

.

where $u$ , $p$ and $f$ are 3-vectors describing the velocity and the momentum of the particle and the force acting on it respectively.

In general relativity the relation between four-force, and four-acceleration remains the same, but the elements of the four-force are related to the elements of the four-momentum through a covariant derivative with respect to proper time.

F^{λ} : = \frac{D P^{λ}}{d τ} = \frac{d P^{λ}}{d τ} + Γ^{λ}_{μ ν} U^{μ} P^{ν}

Examples

In special relativity, Lorentz 4-force (4-force acting to charged particle situated in electromagnetic field) can be expressed as:

F_{μ} = q E_{μ ν} U^{ν}

, where

E_{μ ν}

- electromagnetic tensor,

U^{ν}

- 4-velocity,

q

- electric charge.

References

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+In the [[special theory of relativity]] '''four-force''' is a [[four-vector]] that replaces the classical [[force]]; the four-force is the four-vector defined as the change in [[four-momentum]] over the particle's own [[Proper Time|time]]:
+:<math>\mathbf{F} = {d\mathbf{P} \over d\tau}</math>.
+For a particle of constant [[invariant mass]] ''m'' > 0,  <math>\mathbf{P} = m\mathbf{U} \,</math> where <math>\mathbf{U}=\gamma(c,\mathbf{u}) \,</math> is the [[four-velocity]], so we can relate the four-force with the [[four-acceleration]] as in [[Newton's second law]]:
+:<math>\mathbf{F} = m\mathbf{A} = \left(\gamma {\mathbf{f}\cdot\mathbf{u} \over c},\gamma{\mathbf f}\right)</math>.
+Here
+:<math>{\mathbf f}={d \over dt} \left(\gamma m {\mathbf u} \right)={d\mathbf{p} \over dt}</math>
+and
+:<math>{\mathbf{f}\cdot\mathbf{u}}={d \over dt} \left(\gamma mc^2 \right)={dE \over dt}</math>.
+where <math>\mathbf{u}</math>, <math>\mathbf{p}</math> and <math>\mathbf{f}</math> are 3-vectors describing the velocity and the momentum of the particle and the force acting on it respectively.
+In [[general relativity]] the relation between four-force, and [[four-acceleration]] remains the same, but the elements of the four-force are related to the elements of the [[four-momentum]] through a [[covariant derivative]] with respect to proper time.
+:<math>F^\lambda := \frac{DP^\lambda }{d\tau} = \frac{dP^\lambda }{d\tau } + \Gamma^\lambda {}_{\mu \nu}U^\mu P^\nu </math>
+==Examples==
+In special relativity, [[Lorentz force|Lorentz 4-force]] (4-force acting to charged particle situated in electromagnetic field) can be expressed as:
+:<math>F_\mu = qE_{\mu\nu}U^\nu</math>, where <math>E_{\mu\nu}</math> - [[electromagnetic tensor]], <math>U^\nu</math> - [[4-velocity]], <math>q</math> - [[electric charge]].
+== See also ==
+* [[four-vector]]
+* [[four-velocity]]
+* [[four-acceleration]]
+* [[four-momentum]]
+== References ==
+* {{cite book | author = Rindler, Wolfgang | title=Introduction to Special Relativity | edition=2nd | location= Oxford | publisher=Oxford University Press | year=1991 | isbn=0-19-853953-3}}
+[[Category:Minkowski spacetime]]
+[[Category:Theory of relativity]]
+[[Category:Force]]

Monge array: Difference between revisions

Latest revision as of 04:44, 27 January 2014

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