10 4.43 An ideal gas is expanded isothermally and reversibly at 0°C from 1 to bar. Calculate (a) w per mole, (b) q per mole, (c) AH, (d) AG, and (e) AS for the gas. One mole of an ideal gas in 22.71 L is allowed to expand irreversibly into an evacu-

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ated vessel such that the final total volume is 227.1 L. Calculate
(f) w per mole, (g) q per mole, (h) AH, (i) AG, and (j) AS
for the gas. Calculate (k) AS for the system and its surround-
ings involved in the reversible isothermal expansion and calcu-
late (1) AS for the system and its surroundings involved in an ir-
reversible isothermal expansion in which the gas expands into
an evacuated vessel such that the final total volume is 227.1 L.
Transcribed Image Text:ated vessel such that the final total volume is 227.1 L. Calculate (f) w per mole, (g) q per mole, (h) AH, (i) AG, and (j) AS for the gas. Calculate (k) AS for the system and its surround- ings involved in the reversible isothermal expansion and calcu- late (1) AS for the system and its surroundings involved in an ir- reversible isothermal expansion in which the gas expands into an evacuated vessel such that the final total volume is 227.1 L.
10
4.43 An ideal gas is expanded isothermally and reversibly at
0°C from 1 to bar. Calculate (a) w per mole, (b) q per mole,
(c) AH, (d) AG, and (e) AS for the gas. One mole of an ideal
gas in 22.71 L is allowed to expand irreversibly into an evacu-
Transcribed Image Text:10 4.43 An ideal gas is expanded isothermally and reversibly at 0°C from 1 to bar. Calculate (a) w per mole, (b) q per mole, (c) AH, (d) AG, and (e) AS for the gas. One mole of an ideal gas in 22.71 L is allowed to expand irreversibly into an evacu-
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