| 1. | Again, the second equation implies charge conservation ( in curved spacetime ):
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| 2. | This is the ultimate theoretical origin of charge conservation.
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| 3. | This is a big difference with Maxwell equations that require only charge conservation.
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| 4. | The charge conservation allows the decay of the ball into Q particles exactly.
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| 5. | Gauge symmetry is closely related to charge conservation.
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| 6. | In electromagnetic theory, the continuity equation is an empirical law expressing ( local ) charge conservation.
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| 7. | There is charge conservation though . talk ) 10 : 37, 28 September 2008 ( UTC)
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| 8. | The Higgs condensate in this model has infinitesimal charge, so interactions with the Higgs boson do not violate charge conservation.
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| 9. | Mathematically it is an automatic consequence of Maxwell's equations, although charge conservation is more fundamental than Maxwell's equations.
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| 10. | In special relativity, the statement of charge conservation is that the Lorentz invariant divergence of " J " is zero:
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