ONe mole of an ideal gas first undergoes an isothermal expansion at a tempreture Ti = 500 K to 2 times its original volume . The tempreture is then reduced in an isochoric process to T2=300K . An isothermal compression otakes the gas back to its original volume and a final isochoric process returns the system to temperature T1 . How much heat is exchangeed between the system and its surroundings ? a. Q=1153J b. Q=-1153j c. Q=2816j d.-2816j
ONe mole of an ideal gas first undergoes an isothermal expansion at a tempreture Ti = 500 K to 2 times its original volume . The tempreture is then reduced in an isochoric process to T2=300K . An isothermal compression otakes the gas back to its original volume and a final isochoric process returns the system to temperature T1 . How much heat is exchangeed between the system and its surroundings ? a. Q=1153J b. Q=-1153j c. Q=2816j d.-2816j
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ONe mole of an ideal gas first undergoes an isothermal expansion at a tempreture Ti = 500 K to 2 times its original volume . The tempreture is then reduced in an isochoric process to T2=300K . An isothermal compression otakes the gas back to its original volume and a final isochoric process returns the system to temperature T1 . How much heat is exchangeed between the system and its surroundings ?
a. Q=1153J
b. Q=-1153j
c. Q=2816j
d.-2816j
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Given,
One mole of an ideal gas undergoes isothermal expansion at the temperature
Then it goes to the isochoric process and then compressed isothermally
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