dissipation coefficient

dissipation coefficient

[‚dis·ə′pā·shən ‚kō·i′fish·ənt]
(electromagnetism)
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14] [greater than or equal to] 0, t [greater than or equal to] 0), the contribution of the radiation to the dissipation coefficient of the energy and mass of black holes.
1)](G,t), the contribution of the energy and mass of black holes (when they evaporate or destroyed) to the dissipation coefficient of Hawking radiation.
Where [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII] are first augmentation coefficients for category 1, 2 and 3 due to hawking radiation dissipating energy and mass of the black holes classified based on age thus augmenting the dissipation coefficient of energy and mass of black holes and reducing the dissipation coefficient of hawking radiation due to evaporation of black holes
To account for the energy loss in the throat, defining the throat dissipation coefficient [K.
The diffuser dissipation coefficient, Kdi is obtained as:
m] in the equation represents the mixing dissipation coefficient, which is equal to fraction of jet energy utilized in the mixing.
b) The dissipation coefficient in the growth model is attributable to two factors;
We make an explicit assumption that only category 2 of terrestrial organisms is responsible for the increase in the dissipation coefficient of the oxygen consumption due to cellular respiration.
14] [greater than or equal to] 0, t [greater than or equal to] 0), the contribution of the terrestrial organisms to the dissipation coefficient of the oxygen consumption due to cellular respiration of terrestrial organisms
We make an explicit assumption that only category 2 of DO vis-a-vis terrestrial organisms is responsible for the increase in the dissipation coefficient of the DOM vis-a-vis oxygen consumption due to cellular respiration.
17] [greater than or equal to] 0, t [greater than or equal to] 0), the contribution of the DO vis-a-vis terrestrial organisms to the dissipation coefficient of the DOM vis-a-vis oxygen consumption due to cellular respiration of terrestrial organisms vis-a-vis DO
19]), t), the contribution of the DOM vis-a-vis consumption of oxygen due to cellular respiration to the dissipation coefficient of the DO vis-a-vis terrestrial organisms