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== fierce storm from the jungle 'shot' out ==
{{Expert-subject|Physics|date=November 2008}}


Xiao Yan Yi Deng feet ground, the body is turned into a shadow, rapid inroads that faint black forest.<br><br>With the departure of Xiao Yan, here is slowly fell into silence, it lasts ten minutes after the last ten road shadow, fierce [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-3.html 電波時計 カシオ] storm from the jungle 'shot' out, holding a sword, face 'color' dignified glance a look around, saw no movement after that just light relief, as one another, are all with a wry smile [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-4.html カシオ 腕時計 ソーラー] and shook his head, 一枚 flares ready to go on the right hand clenched, and it was stuffed pregnant , for that can repel [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-8.html 時計 メンズ カシオ] even the old sovereign Yunshan terrorist figures who these people are naturally afraid of God to be incomplete.<br><br>a leading cloud-lan apprentice slowly out, waving a sword, Jianguang flashing, [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-14.html カシオ 時計 電波 ソーラー] on a tree stem, leaving an obscure sigil, done it afterwards, he just turned around and whispered: ' here has been the search is completed, if then down, then, [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-4.html カシオ ソーラー電波腕時計] is to be entered
''Where appropriate, this article will use the [[abstract index notation]].''
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== his right hand clenched into a fist ==
'''Solutions of the Einstein field equations''' are [[spacetime]]s that result from solving the [[Einstein field equations]] (EFE) of [[general relativity]]. Solving the field equations actually gives [[Lorentz metric]]s. Solutions are broadly classed as ''exact'' or ''non-exact''.


Who, in the eyes Hanmang suddenly flash, and its stature, unexpected disappearance in situ, when again, impressively been to that man behind the lead lizard!<br>With the [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-0.html カシオ 腕時計 チタン] right lava flow<br>special induction, when Xiao Yan [http://www.nnyagdev.org/sitemap.xml http://www.nnyagdev.org/sitemap.xml] appeared behind the leader after it is to be aware of, the [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-12.html 電波腕時計 カシオ] moment [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-0.html casio 腕時計] came a growl uncontrollably mouth, large palms clenched into a fist, fiercely against Behind Xiao Yan angrily smashing away.<br><br>'bang!'<br><br>large fist [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-10.html casio 腕時計 データバンク] with one hand holding Xiao Yan, contact between the palm and fist attack, an outbreak of volatility forceful ripples out around the flame lizard man shook rapid retrogression.<br><br>'Well!'<br><br>one hand fall upon flame lizard people, Xiao Yan Leng Heng, body shoved forward, his right hand clenched into a fist, and then suddenly smacked!<br><br>'extreme collapse!'<br><br>deep self-Sheng Xiao Yan mouth spread, over fist, power suddenly soaring
The Einstein field equations are
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:<math>G_{ab} \, = \kappa T_{ab}</math>
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== Xiao Ding duo also nodded and said ==
or more generally
:<math>G_{ab} + \Lambda g_{ab} \, = \kappa T_{ab}</math>


Head, at his side, a small medical cents, Skyfire Venerable, Harengula also in this, for those invited from other strong, but it is in solving cases of deep trouble shortly after the lion, is the lead back Central Plains.<br><br>'Brother, brother, we will leave it, and in the future if there is anything, it can thus [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-15.html 電波時計 casio] be directly sent to the stars fell Court, where someone will receive' Xiao Yan Pianguo Tou, looking at Xiao Ding Xiao Li two people laughed.<br><br>Wen Yan, Xiao Ding duo also nodded and said:. 'Well, take care of'<br><br>Xiao Yan smiled, do not make [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html casio 腕時計 デジタル] too much unnecessary ink, facing the crowd around the arch of the hand, and is among the first to step into the wormhole, soon to disappear quickly, and after following the Xiao Yan, Xiao Xiao holding color [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-1.html カシオ スタンダード 腕時計] scales, but [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-7.html casio 腕時計 説明書] also to keep [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-13.html カシオ 腕時計 ソーラー 電波] up quickly behind again, that is a small medical cents first-class people.<br><br>looked Xiao go far people disappear into a wormhole in space, Xiao Ding Xiao Li some saw the sigh of a
where '''<math>\kappa</math>''' is a constant, and the [[Einstein tensor]] on the left side of the equation is equated to the [[stress-energy tensor]] representing the energy and momentum present in the spacetime. The Einstein tensor is built up from the [[Metric tensor (general relativity)|metric tensor]] and its partial derivatives; thus, the EFE are a system of ten [[partial differential equation]]s to be solved for the metric.
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== in the purple light of that road ==
==Solving the equations==
It is important to realize that the Einstein field equations alone are not enough to determine the  evolution of a gravitational system in many cases. They depend on the [[stress-energy tensor]], which depends on the dynamics of matter and energy (such as trajectories of moving particles), which in turn depends on the gravitational field. If one is only interested in the [[weak-field approximation|weak field limit]] of the theory, the dynamics of matter can be computed using special relativity methods and/or Newtonian laws of gravity and then placing the resulting stress-energy tensor into the Einstein field equations. But if the exact solution is required or a solution describing strong fields, the evolution of the metric and the stress-energy tensor must be solved for together.


Spin is gradually Evolution of the energy in the water spin<br><br>just a few minutes, the last one energy, and it was condensed into a drop of energy 'fluid' body, imported into the huge water spin.<br><br>'Boom!'<br>When<br>in the wind energy spin completely into the water, spin, spin the [http://nrcil.net/sitemap.xml http://nrcil.net/sitemap.xml] entire water are severely shaking a bit, and soon, it is almost a hundred days [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html 腕時計 casio] into the sleeping Xiao Yan, Meng opened his eyes, two amazing purple light, a sudden storm since its eyes 'shot' out!<br><br>two purple light, the storm swept the sky, in the purple [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-9.html casio 腕時計 ゴールド] light of that [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-15.html カシオ gps 時計] road, East Long Island, is a lot of cologne tribe felt a strange coercion, the kind of coercion, the same source and blood<br><br>'This is the blood of the dragon emperor coercion? how will appear [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-3.html カシオ 腕時計 電波 ソーラー] on his body?'<br><br>cologne when many Serbs do this consternation, the purple sky research on the cheek is across the touch of surprise, from
To obtain solutions, the relevant equations are the above quoted EFE (in either form) plus the [[continuity equation]] (to determine evolution of the stress-energy tensor):
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:<math>T^{ab}{}_{;b}  \, = 0 \,.</math>
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== Therefore ==
This is clearly not enough, as there are only 14 equations (10 from the field equations and 4 from the continuity equation) for 20 unknowns (10 metric components and 10 stress-energy tensor components). [[equation of state|Equations of state]] are missing. In the most general case, it's easy to see that at least 6 more equations are required, possibly more if there are internal degrees of freedom (such as temperature) which may vary throughout space-time.


And energy, did not feel envious of others, perhaps [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html カシオ腕時計 g-shock] compared to combat, some refining 'medicine' division may not be strong, but he was able to come up with a little Dan 'medicine', so that was another strong for his shot, take people [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-12.html 時計 カシオ] 'sex' life<br><br>Therefore, people on the mainland are aware, refining 'medicine' division, especially some of the higher order mixing 'medicine' division, or try not to provoke, because these people, like a hornet's nest like a poke, that is, give rise to Countless trouble<br><br>a higher order of refining 'medicine' division, but also some of the most coveted forces, in order to be able to pull them into the arm, a [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html カシオ腕時計 g-shock] lot of forces are to quote [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-5.html カシオの時計] rates for all sorts of attractive conditions, in order to compete for an even lack some of the higher-order Lian 'medicine' division, and fight, killing bloody thing<br><br>refining 'medicine' distinguished teacher, Dan will also have to make, [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-8.html casio 腕時計 スタンダード] it is particularly having a weight up, everyone knows that this General Assembly, brought together from across the continent with
In practice, it is usually possible to simplify the problem by replacing the full set of equations of state with a simple approximation. Some common approximations are:
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== 'I'm sorry ==
* [[Vacuum solution (general relativity)|Vacuum]]:
:<math>T_{ab} \, = 0</math>


Wen Yan, Xiao Yan face 'color' mad changed, that the soul force condensed [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-3.html 電波時計 カシオ] illusory figure, fierce volatility up.<br><br>'Do not worry, though soul force is drained, but not can not be restored, but I [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-13.html casio 腕時計 edifice] might be like before, sleeping for some time.' 'medicine' old soft staring biting his lips Xiao Yan, laughing said: 'After a period of time, maybe the teacher can not [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-7.html カシオ 掛け時計] continue to protect [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-6.html casio 腕時計 メンズ] you, all things, have to [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-0.html カシオ 腕時計 チタン] rely on your own.'<br><br>looked serene smile 'medicine' old, Xiao Yan suddenly red eyes of many, fists tightly holding, whispered hoarsely said: 'I'm sorry, teachers ...'<br><br>Xiao Yan mind clear, if not their fusion of different fire obstinately want, then 'medicine' old soul force would never be absorbed completely, and now, not to sleep, to restore the power of the.<br><br>'Oh, do not blame, just sleeping period
* [[Fluid solution|Perfect fluid]]:
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:<math>T_{ab} \, = (\rho + p)u_a u_b + p g_{ab}</math> where <math>u^au_a = -1\!</math>
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Here <math>\rho</math> is the mass-energy density measured in a momentary co-moving frame, <math>u_a</math> is the fluid's 4-velocity vector field, and <math>p</math> is the pressure.
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For a perfect fluid, another equation of state relating density <math>\rho</math> and pressure <math>p</math> must be added. This equation will often depend on temperature, so a heat transfer equation is required or the postulate that heat transfer can be neglected.
 
 
</ul>
Next, notice that only 10 of the original 14 equations are independent, because the continuity equation <math>T^{ab}{}_{;b} = 0</math> is a consequence of Einstein's equations. This reflects the fact that the system is [[gauge invariant]] and a "gauge fixing" is needed, i.e. impose 4 constraints on the system, in order to obtain unequivocal results. These constraints are known as [[coordinate conditions]].
 
A popular choice of gauge is the so-called "De Donder gauge", also known as the [[harmonic coordinate condition|harmonic]] [[coordinate conditions|condition]] or harmonic gauge
:<math>g^{\mu\nu} \Gamma^{\sigma}_{\mu\nu} = 0 \,.</math>
 
In [[numerical relativity]], the preferred gauge is the so-called "3+1 decomposition", based on the [[ADM formalism]]. In this decomposition, metric is written in the form
:<math> ds^2 \, = (-N + N^i N^j \gamma_{ij}) dt^2 + 2N^i \gamma_{ij} dt dx^j + \gamma_{ij} dx^i dx^j</math>, where <math> i,j = 1\dots 3 \,.</math>
 
<math>N</math> and <math>N^i</math> can be chosen arbitrarily. The remaining physical degrees of freedom are contained in <math>\gamma_{ij}</math>, which represents the Riemannian metric on 3-hypersurfaces <math>t=const</math>.
 
Once equations of state are chosen and the gauge is fixed, the complete set of equations can be solved for. Unfortunately, even in the simplest case of gravitational field in the vacuum ( vanishing stress-energy tensor ), the problem turns out too complex to be exactly solvable. To get physical results, we can either turn to [[numerical relativity|numerical methods]]; try to find [[Exact solutions in general relativity|exact solutions]] by imposing [[Spacetime symmetries|symmetries]]; or try middle-ground approaches such as [[Non-exact solutions in general relativity|perturbation methods]] or linear approximations of the [[Einstein tensor]].
 
==Exact solutions==
{{Expand section|date=June 2008}}
{{Main|Exact solutions}}
Exact solutions are [[Lorentz metric]]s that are conformable to a physically realistic stress-energy tensor and which are obtained by solving the EFE exactly in [[Closed-form expression|closed form]].
 
==Non-exact solutions==
{{Expand section|date=June 2008}}
{{Main|Non-exact solutions in general relativity}}
Those solutions that are not exact are called ''non-exact solutions''. Such solutions mainly arise due to the difficulty of solving the EFE in closed form and often take the form of approximations to ideal systems. Many non-exact solutions may be devoid of physical content, but serve as useful counterexamples to theoretical conjectures.
 
==Applications==
{{Expand section|date=June 2008}}
There are practical as well as theoretical reasons for studying solutions of the Einstein field equations.
 
From a purely mathematical viewpoint, it is interesting to know the set of solutions of the Einstein field equations. Some of these solutions are parametrised by one or more parameters.
 
==See also==
 
*[[Ricci calculus]]
 
==References==
 
* {{cite book | author=J.A. Wheeler, C. Misner, K.S. Thorne| title=[[Gravitation (book)|Gravitation]]| publisher=W.H. Freeman & Co| year=1973 | isbn=0-7167-0344-0}}
* {{cite book | author=J.A. Wheeler, I. Ciufolini| title=Gravitation and Inertia| publisher=Princeton University Press| year=1995| isbn=978-0-691-03323-5}}
* {{cite book | author=R.J.A Lambourne| title=Relativity, Gravitation and Cosmology| publisher=[[The Open University]], Cambridge University Press| year=2010| isbn=978-0-521-13138-4}}
 
{{DEFAULTSORT:Solutions Of The Einstein Field Equations}}
[[Category:General relativity]]

Revision as of 08:58, 24 January 2014

Template:Expert-subject

Where appropriate, this article will use the abstract index notation.

Solutions of the Einstein field equations are spacetimes that result from solving the Einstein field equations (EFE) of general relativity. Solving the field equations actually gives Lorentz metrics. Solutions are broadly classed as exact or non-exact.

The Einstein field equations are

Gab=κTab

or more generally

Gab+Λgab=κTab

where κ is a constant, and the Einstein tensor on the left side of the equation is equated to the stress-energy tensor representing the energy and momentum present in the spacetime. The Einstein tensor is built up from the metric tensor and its partial derivatives; thus, the EFE are a system of ten partial differential equations to be solved for the metric.

Solving the equations

It is important to realize that the Einstein field equations alone are not enough to determine the evolution of a gravitational system in many cases. They depend on the stress-energy tensor, which depends on the dynamics of matter and energy (such as trajectories of moving particles), which in turn depends on the gravitational field. If one is only interested in the weak field limit of the theory, the dynamics of matter can be computed using special relativity methods and/or Newtonian laws of gravity and then placing the resulting stress-energy tensor into the Einstein field equations. But if the exact solution is required or a solution describing strong fields, the evolution of the metric and the stress-energy tensor must be solved for together.

To obtain solutions, the relevant equations are the above quoted EFE (in either form) plus the continuity equation (to determine evolution of the stress-energy tensor):

Tab;b=0.

This is clearly not enough, as there are only 14 equations (10 from the field equations and 4 from the continuity equation) for 20 unknowns (10 metric components and 10 stress-energy tensor components). Equations of state are missing. In the most general case, it's easy to see that at least 6 more equations are required, possibly more if there are internal degrees of freedom (such as temperature) which may vary throughout space-time.

In practice, it is usually possible to simplify the problem by replacing the full set of equations of state with a simple approximation. Some common approximations are:

Tab=0
Tab=(ρ+p)uaub+pgab where uaua=1

Here ρ is the mass-energy density measured in a momentary co-moving frame, ua is the fluid's 4-velocity vector field, and p is the pressure.

Tab=ρuaub

For a perfect fluid, another equation of state relating density ρ and pressure p must be added. This equation will often depend on temperature, so a heat transfer equation is required or the postulate that heat transfer can be neglected.

Next, notice that only 10 of the original 14 equations are independent, because the continuity equation Tab;b=0 is a consequence of Einstein's equations. This reflects the fact that the system is gauge invariant and a "gauge fixing" is needed, i.e. impose 4 constraints on the system, in order to obtain unequivocal results. These constraints are known as coordinate conditions.

A popular choice of gauge is the so-called "De Donder gauge", also known as the harmonic condition or harmonic gauge

gμνΓμνσ=0.

In numerical relativity, the preferred gauge is the so-called "3+1 decomposition", based on the ADM formalism. In this decomposition, metric is written in the form

ds2=(N+NiNjγij)dt2+2Niγijdtdxj+γijdxidxj, where i,j=13.

N and Ni can be chosen arbitrarily. The remaining physical degrees of freedom are contained in γij, which represents the Riemannian metric on 3-hypersurfaces t=const.

Once equations of state are chosen and the gauge is fixed, the complete set of equations can be solved for. Unfortunately, even in the simplest case of gravitational field in the vacuum ( vanishing stress-energy tensor ), the problem turns out too complex to be exactly solvable. To get physical results, we can either turn to numerical methods; try to find exact solutions by imposing symmetries; or try middle-ground approaches such as perturbation methods or linear approximations of the Einstein tensor.

Exact solutions

Template:Expand section Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. Exact solutions are Lorentz metrics that are conformable to a physically realistic stress-energy tensor and which are obtained by solving the EFE exactly in closed form.

Non-exact solutions

Template:Expand section Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. Those solutions that are not exact are called non-exact solutions. Such solutions mainly arise due to the difficulty of solving the EFE in closed form and often take the form of approximations to ideal systems. Many non-exact solutions may be devoid of physical content, but serve as useful counterexamples to theoretical conjectures.

Applications

Template:Expand section There are practical as well as theoretical reasons for studying solutions of the Einstein field equations.

From a purely mathematical viewpoint, it is interesting to know the set of solutions of the Einstein field equations. Some of these solutions are parametrised by one or more parameters.

See also

References

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