Which of the following processes would you expect to produces the greatest increase in the entropy of a pure substance that is heated from absolute zero to a temperature somewhat above its boiling point.
heating the liquid
melting the solid
heating the gas
heating the solid
vaporizing the liquid
Generally gases have more entropy due to high disorderness than liquids which have more entropy than solids. Solids have highly orderly arrangement of species.
Melting of solids and heating of solids have greatest increase in entropy as they have very low entropy due to high orderly arrangement. When solids are heated, first it is converting into liquid followed by to gases. So increase in entropy is more in melting of solids
Which of the following processes would you expect to produces the greatest increase in the entropy...
Please help with 1, 2, 3, 4 & 5
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Consider a pure crystalline solid that is heated from absolute zero to a temperature above the boiling point of the liquid. Which of the following processes produces the greatest increase in the entropy of the substance? O melting the solid O heating the liquid heating the gas heating the solid vaporizing the liquid is for a given reaction, the larger the value of the corresponding equilibrium...
Which one of the following processes produces a decrease in the entropy of the system? Which one of the following processes produces a decrease in the entropy of the system? mixing of two gases into one container boiling water to form steaь melting solid lead into liquid lead precipitation of AgCl(s) from Ag+(aq) and Cl−(aq) ions in solution dissolution of MgCl2(s) in water
Part A For a single substance at atmosphericpressure, classify the following as describing a spontaneousprocess, a nonspontaneous process, or an equilibrium system. 1. Solid melting above its melting point 2.liquid freezing below its freezing point 3. gas condensing above its condensation point 4. liquid vaporizing below its boiling point 5. solid melting below its melting point 6. solid and liquid together at the melting point with no netfreezing or melting 7. gas condensing below its condensation point 8. liquid and...
Determine whether each of these processes is reversible or irreversible. Drag the appropriate items to their respective bins. Bins: Reversible and Irreversible 1) solid melting infinitesimally slowly at its melting point 2) a single swing of a real pendulum 3) gas condensing infinitesimally slowly at its condensation point 4) solid melting infinitesimally slowly above its melting point 5) liquid freezing below its freezing point 6) liquid freezing infinitesimally slowly at its freezing point 7) a single swing of a frictionless...
Determine whether each of these processes is reversible or irreversible. Drag the appropriate items to their respective bins. View Available Hint(s) Reset Help liquid freezing below its freezing point liquid vaporizing above its boiling point solld melting infinitesimally slowly above its melting point liquid vaporizing infinitesimally slowly at its boiling point liquid freezing infinitesimally slowly at its freezing point solid melting infinitesimally slowly at its melting point a single swing of a real pendulum gas condensing infinitesimally slowly at its...
For a single substance at atmospheric pressure, classify the following as describing a spontaneous process, a nonspontaneous process, or an equilibrium system. Drag the appropriate items to their respective bins. Bins: Spontaneous Process, Nonspontaneous process, and Equilibrium System 1) solid melting below its melting point 2) liquid vaporizing below its boiling point 3) gas condensing below its condensation point 4) solid and liquid together at the melting point with no net freezing or melting 5) liquid vaporizing above its boiling...
Which of the following processes would result in an increase only in the potential energy of the system of particles?A) A solid or liquid warms.B) A solid changes to a liquid during melting.C) A liqui changes to a gas during boiling.D) Choices B & CE) Choices A, B, & C
For substance A, the entropy of the solid at 98.36 K is 7.36 Cal/molK, at this temperature it takes place the transition from one solid form to another, the transition heat is 284.3 cal/mol. The increase in entropy of the second solid modification is 98.36 K to 158.91 K and is 5.05 Cal/molK; The temperature of 158.91 K is the melting temperature of the solid. The melting heat of the solid is 476 cal/mol. From the melting point to the...
For substance A, the entropy of the solid at 98.36 K is 7.36 Cal/molK, at this temperature it takes place the transition from one solid form to another, the transition heat is 284.3 cal/mol. The increase in entropy of the second solid modification is 98.36 K to 158.91 K and is 5.05 Cal/molK; The temperature of 158.91 K is the melting temperature of the solid. The melting heat of the solid is 476 cal/mol. From the melting point to the...
For substance A, the entropy of the solid at 98.36 K is 7.36 Cal/molK, at this temperature it takes place the transition from one solid form to another, the transition heat is 284.3 cal/mol. The increase in entropy of the second solid modification is 98.36 K to 158.91 K and is 5.05 Cal/molK; The temperature of 158.91 K is the melting temperature of the solid. The melting heat of the solid is 476 cal/mol. From the melting point to the...