The gas will have an ultimate pressure of 4.244 atm. An isomer with a distinct group arrangement across a double bond, ring, etc. is said to be a geometric isomer.
Coordination chemicals typically exhibit geometric isomers.
The gas's starting pressure is.
The gas's starting temperature is.
Let V be the gas's initial volume. As a result, the total volume will be 2V, or twice.
The provided diatomic gas is adiabatically expanded. Therefore, where is the ratio of the gas's specific heats, which is equal to 1.4 for a diatomic gas, will be the equation for the adiabatic process. Therefore, the final pressure can be calculated as follows:
As a result, the gas will have a final pressure of 4.244 atm.
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