[0.5" mole each of two ideal gases "A(C(...

[0.5" mole each of two ideal gases "A(C_(v,m)=(5)/(2)R)" and "B(C_(v,m)=3R)" are taken in a container "],[" and expanded reversibly and adiabatically,during this process temperature of gaseous mixture "],[" decreased from "350K" to "250K" .Find "Delta H" (in cal/mol) for the process: "],[[" (a) "-100R," (b) "-137.5R],[" (c) "-375R," (d) None of these "]]

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0.5 mole each of two ideal gases A (C_(v,m)=(5)/(2)R) and B (C_(v,m)=3R) are taken in a container and expanded reversibly and adiabatically, during this process temperature of gaseous mixture decreased from 350 K to 250 K. Find DeltaH (in cal/mol) for the process :

0.5 mole each of two ideal gases A (C_(v.m)= (5)/(2)R) and B (C_(v.m)=3R) are taken in a container and expanded reversibly and adiabtically, during this process temperature of gaseous mixture decreases from 350K and 250K. Find DH (in cal/mol) for the process

1 mole of an ideal gas A ( C_(v,m)=3R ) and 2 mole of an ideal gas B are (C_(v.m)= (3)/(2)R) taken in a constainer and expanded reversible and adiabatically from 1 litre of 4 litre starting from initial temperature of 320K. DeltaE or DeltaU for the process is (in Cal)

1 mole of an ideal gas A(C_(v.m)=3R) and 2 mole of an ideal gas B are (C_(v,m)=(3)/(2)R) taken in a container and expanded reversible and adiabatically from 1 litre of 4 litre starting from initial temperature of 320 K. DeltaE or DeltaU for the process is :

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