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No, order can't spontaneously appear in a macroscopic closed system which has reached thermal equilibrium.
Macroscopic properties of water, such as its liquid state under normal conditions, its ability to dissolve polar substances and its high boiling point
Chemical equibrium can involve changes in chemical properties.
equilibrium
equilibrium readjusts itself and a new equilibrium is established
when forward and reverse reaction rates are equal
No, order can't spontaneously appear in a macroscopic closed system which has reached thermal equilibrium.
Many of the macroscopic properties of a compound depend on the way in which the atoms of the molecules are held together. One macroscopic property is electric conductivity.
Macroscopic properties of water, such as its liquid state under normal conditions, its ability to dissolve polar substances and its high boiling point
Macroscopic properties can be observed and measured on a larger scale, such as mass, volume, and pressure, while microscopic properties pertain to the individual particles that make up a substance, such as molecular structure and behavior. Macroscopic properties describe the overall behavior of a system, whereas microscopic properties provide insight into the interactions between particles at a molecular level.
it combines two or more molecules when bonding
Chemical equibrium can involve changes in chemical properties.
equilibrium
equilibrium readjusts itself and a new equilibrium is established
M. J. Hiza has written: 'Equilibrium properties of fluid mixtures 2' -- subject(s): Bibliography, Liquid-liquid equilibrium, Mixtures 'Equilibrium properties of fluid mixtures' -- subject(s): Bibliography, Liquid-liquid equilibrium, Mixtures
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S. Srinivasan has written: 'Simplified curve fits for the thermodynamic properties of equilibrium air' -- subject(s): Curve fitting, Equilibrium air, Thermodynamic properties