Examples of using Each particle in English and their translations into Hebrew
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Colloquial
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Ecclesiastic
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Computer
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Programming
Somehow each particle always seemed to know what the other was doing.
Somehow, each particle always seems to know what the other is doing.
The motion of each particle is thus described by the Lorentz Force Law.
These four different forces interact with matter according to the corresponding charges that each particle has.
Within each particle there are worlds,
By“active agent” he means that each particle in the universe makes choices between random processes.
then we can assign unique new charges to each particle.
when we just looked at this, each particle could be in one of x places, or in one of x states.
depending on each particle's shape and formulation, a finding that may encourage further study of the particles' therapeutic use.
so you're actually going to have each particle exert more force on each surface.
Furthermore, the size of each particle is measured using NMR in nanometers(to give you a sense of how small these things are, and why we need to use nanometers to measure them, about 1.3 million LDL particles stacked side-by-side would measure only one inch).
The Boltzmann entropy is obtained if one assumes one can treat all the component particles of a thermodynamic system as statistically independent. The probability distribution of the system as a whole then factorises into the product of N separate identical terms, one term for each particle; and the Gibbs entropy simplifies to the Boltzmann entropy.
Each elementary particle has an anti-particle.
Since apoB is found on each LDL particle, this serves as a proxy of LDL-P.
When we include these, each matter particle has two different spin charges, spin-up and spin-down.
In order to functionalize the complete surface of each individual particle, a good dispersion method is required.
In order to functionalize the complete surface of each individual particle, a good dispersion method is required.
We have shown that our technique is sensitive to the density and compressibility of each individual particle as it passes by," Bahl added.
The shortage of nucleation centers in water is known to result from the capability of the water molecules to cluster around each foreign particle.
powder slurry into a container, each powder particle is not in perfect position to the neighboring particles in the packing system.