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Is energy conserved in General Relativity?

April 26, 2017conserved energy Relativity

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Is energy conserved in General Relativity?

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In special cases, yes. In general— it depends on what you mean by “energy”, and what you mean by “conserved”. In flat spacetime (the backdrop for special relativity) you can phrase energy conservation in two ways: as a differential equation, or as an equation involving integrals (gory details below). The two formulations are mathematically equivalent. But when you try to generalize this to curved spacetimes (the arena for general relativity) this equivalence breaks down. The differential form extends with nary a hiccup; not so the integral form. The differential form says, loosely speaking, that no energy is created in any infinitesimal piece of spacetime. The integral form says the same for a finite-sized piece. (This may remind you of the “divergence” and “flux” forms of Gauss’s law in electrostatics, or the equation of continuity in fluid dynamics. Hold on to that thought!) An infinitesimal piece of spacetime “looks flat”, while the effects of curvature become evident in a finite