Examples of 'are thermodynamically' in a sentence
Meaning of "are thermodynamically"
are thermodynamically: Refers to processes or systems being analyzed or described in relation to the laws of thermodynamics
How to use "are thermodynamically" in a sentence
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are thermodynamically
Fluorosilicate minerals are thermodynamically unstable in soil.
The primers ( i.e. all the primers used in the same amplification reaction ) are thermodynamically compatible ;.
Reactions that are thermodynamically possible.
The association structures of the present invention are thermodynamically stable.
Such reactions are thermodynamically favorable and tend to happen on their own.
Many chemicals needed for life are thermodynamically unstable.
Disulfide bonds are thermodynamically stable and thus provide good stability in plasma.
Structured surfactants differ from microemulsions which are thermodynamically stable systems.
Systems that are thermodynamically open exchange matter and energy with their surroundings.
The two reverse micelles thus obtained are thermodynamically stable for several minutes.
Emulsions are thermodynamically unstable systems, which are separated by different factors.
Absorption spectroscopy allows the study of samples that are thermodynamically stable at room temperature.
The cork granules are thermodynamically treated to ensure the organoleptic neutrality of these stoppers.
Frequently crystals do not form even when they are thermodynamically the favored state.
Microemulsions are thermodynamically stable having particle sizes that do not change with time.
See also
The present embodiment prefers liposome suspensions which are thermodynamically stable at the temperature of formation.
Crystalline forms are thermodynamically more stable than amorphous forms of the same substance.
In other words, these reactions are thermodynamically controlled.
Emulsions are thermodynamically unstable systems in which one phase is dispersed in another, partially immiscible.
Isothermal processes are thermodynamically reversible.
Emulsions are thermodynamically unstable, and the phases of an emulsion will separate with time.
The V oligonucleotides chosen at this position are thermodynamically compatible with one another.
Microemulsions are thermodynamically stable, such that the droplets will not coalesce and precipitate over time.
In general, many polymer pairs are thermodynamically incompatible.
The primers are thermodynamically compatible ; and.
Unlike regular emulsions, microemulsions are thermodynamically stable.
These microemulsions are thermodynamically stable, optically transparent and homogeneous.
In some embodiments, the engineered cross-linked thermoplastic particles are thermodynamically compatible with a thermosetting resin.
Inasmuch as most polymers are thermodynamically incompatible, polymer blending has heretofore found limited utility.
The non-lamellar liquid crystalline and L3 phases are thermodynamically stable systems.
Frequently, the two polymers are thermodynamically immiscible, which precludes generating a truly homogeneous product.
However, reaction of phenols and bispbenols with dialkyl carbonates are thermodynamically unfavorable D.
Rigid and flexible segments are thermodynamically immiscible and, therefore, phase separation occurs.
Evidently, as shown in Table 1, the bimolecular duplexes are thermodynamically preferred.
Examples of thermoplastic particles that are thermodynamically compatible with epoxy resin include polyetherimide, polysulfone, polyethersulfone.
All real-world oscillator systems are thermodynamically irreversible.
In addition, SUV are thermodynamically unstable and are susceptible to aggregation and fusión.
In addition, gamma-alumina or transition-alumina washcoats are thermodynamically unstable alumina phases.
Furthermore, both forms are thermodynamically more stable than the amorphous form of Imatinib mesylate.
Thus, endergonic reactions are thermodynamically unfavorable.
The microemulsions of the invention are thermodynamically and temperature stable liquid systems.
Other oxides / hydroxides are thermodynamically stable.
The present micro-emulsions are thermodynamically very stable.
Furthermore, the oxygen reactions are thermodynamically favored over hydrogen formation.
The Peltier-Seebeck and Thomson effects are thermodynamically reversible, whereas Joule heating is not.
In such a rubber, the A blocks are thermodynamically incompatible with the B blocks.
The Peltier - Seebeck and Thomson effects are thermodynamically reversible, whereas Joule heating is not.
Emulsions are generally two-phase-systems, and they are thermodynamically unstable ( but may be kinetically stable ).
The stability of the + salts ( X Br, I ) are thermodynamically quite stable.
