Lower temperature favors the formation of a condensed phase.
2.
In any condensed phase, a nuclear spin experiences a great number of interactions.
3.
In a condensed phase, there is very nearly a balance between the attractive and repulsive forces.
4.
In a condensed phase, the pressure dependence of the equilibrium constant is associated with the reaction molar volume.
5.
This is equal to the heat of vaporization of the compound divided by its molar volume in the condensed phase.
6.
Then the gas can condense to form a solid or liquid ( i . e ., a condensed phase ).
7.
In the condensed phase, the resultant carbonaceous char helps to shield the underlying polymer from attack by oxygen and radiant heat.
8.
In the gas phase, and at very low temperatures in the condensed phase, the alkali metals form covalently bonded diatomic molecules.
9.
Acetylenediol is unstable in the condensed phase, although its tautomer glyoxal H ( C = O ) 2 H is well known.
10.
Unlike the related fluorinated acetylenes, dichloroacetylene does not easily engage in thermal polymerization in either its gas phase or its condensed phase.
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