I have been told that when stimulating a nerve, the charge density is more important.
Ionic kosmotropes tend to be small or have high charge density.
It should not be confused with the charge density, which is the number of charges per volume at a given energy.
The charge density is proportional to the absolute square of the wave function.
The charge density is not actually concentrated in a delta function.
The charge density may be obtained from the relationship, where J is a positive constant.
The reasons for why diagonal relationships exist are not fully understood, but charge density is a factor.
Due to maximum charge density on surface, an area of at least 100 cm has to be involved.
If the charge density is zero, then Laplace's equation results.
They stand apart from other batteries in their high charge density (long life) and high cost per unit.
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