A balloon that is initially flat, is ini...

A balloon that is initially flat, is initiated by filling it from a tank of compressed air. The final volume of the balloon is `5m^(3)`. The barometer reads 95kPa. The work done in this process is

`475xx10^(5)J`

`4.75xx10^(7)J`

`4.75xx10^(3)J`

`4.75xx10^(5)J`

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A balloon containing 1 mole air at 1 atm initially is filled further with air till pressure increases to 4 atm. The intial diameter of the ballon is 1 m and the pressure at each stage is proportional to diameter of the balloon. How many moles of air added to change the pressure from 1 atm to 4 atm.

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consider two processes on a system on a system as shown in the volumes in the initial states are the same in the two processes and the volume in the final states are also the same.Let DeltaW_(1) and DeltaW_(2) be the work done by the sustem in the processes A and B respectively.

`DeltaW_(1)gtDelta_(2)`

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Consider two processes on a system as shown in fig. The volume in the initial states are the same in the two processes and the volumes in the final states are also the same. Let triangleW_(1) and triangleW_(2) be the work done by the system in the processes A and B respectively.

`triangleW_(s) gt triangleW_(2)`

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A balloon that is initially flat, is initiated by filling it from a tank of compressed air. The final volume of the balloon is `5m^(3)`. The barometer reads 95kPa. The work done in this process is

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A balloon containing 1 mole air at 1 atm initially is filled further with air till pressure increases to 4 atm. The intial diameter of the ballon is 1 m and the pressure at each stage is proportional to diameter of the balloon. How many moles of air added to change the pressure from 1 atm to 4 atm.

consider two processes on a system on a system as shown in the volumes in the initial states are the same in the two processes and the volume in the final states are also the same.Let DeltaW_(1) and DeltaW_(2) be the work done by the sustem in the processes A and B respectively.

Consider two processes on a system as shown in fig. The volume in the initial states are the same in the two processes and the volumes in the final states are also the same. Let triangleW_(1) and triangleW_(2) be the work done by the system in the processes A and B respectively.

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