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11 Nov 2019
Hello! If anyone can give some help for part B thatâd be swell. 5. 1.00 mole of ideal gas (with Cv 12.5 J.K-1-mol') is subjected to the following three- ep process: â¨lfthe system undergaoesan isothermal reversible expansion at 400 K from a volume of 15.0 to 48.0, show that the following physical parameters have the values: i.) P 0.684 atm, ii.) Tf-400 K iii.) AU= 0 kJiv.) w =-3.87 kJ and v.) q +3.87 kJ (these quantities do not necessarily have to be computed in that order). lf the system then undergoes an adiabatic reversible compression from bIf the system then undergoes an adiabatic reversible compression from 48.0 L to 3.00 to 3.00 L, show that the following physical parameters have the values: i.) P -69.2 atm, ii.) T- 2529 K iii.)aU= +26.6 kJiv.) w = +26.6 kJ and v.) q = 0 kJ (these quantities do not
Hello! If anyone can give some help for part B thatâd be swell.
5. 1.00 mole of ideal gas (with Cv 12.5 J.K-1-mol') is subjected to the following three- ep process: â¨lfthe system undergaoesan isothermal reversible expansion at 400 K from a volume of 15.0 to 48.0, show that the following physical parameters have the values: i.) P 0.684 atm, ii.) Tf-400 K iii.) AU= 0 kJiv.) w =-3.87 kJ and v.) q +3.87 kJ (these quantities do not necessarily have to be computed in that order). lf the system then undergoes an adiabatic reversible compression from bIf the system then undergoes an adiabatic reversible compression from 48.0 L to 3.00 to 3.00 L, show that the following physical parameters have the values: i.) P -69.2 atm, ii.) T- 2529 K iii.)aU= +26.6 kJiv.) w = +26.6 kJ and v.) q = 0 kJ (these quantities do not
Irving HeathcoteLv2
20 Jun 2019