How Do You Calculate Work Done in a Thermodynamic Process?

AI Thread Summary
To calculate work done in a thermodynamic process where a fluid expands from 3 bar to 0.6 bar, the pressure is not constant, necessitating integration for accurate results. The user initially attempted to use the formula W = P*(V2-V1), which is only applicable for constant pressure scenarios. Clarification was provided that the correct approach involves integrating the pressure function, p = c/v^2, over the volume change. The user faced confusion regarding the integration limits and the correct formulation of pressure. The final calculated work done during the process is 29.82 kJ.
Iain123
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Homework Statement



Unit mass of a fluid at a pressure of 3 bar, and with a specific volume of 0.18 m^3/kg, contained in a cylinder fitted with a piston expands reversibly to a pressure of 0.6 bar according to the law p = c/v^2
, where c is a constant. Calculate the work done during the process. (Answer = 29.82 kJ)
[/B]

Homework Equations

The Attempt at a Solution



Hi guys, its been a few years since i did any thermodynamics and I am struggling to remember how to solve this problem, iv been unsuccessfully trying to use the specific volume to get V2, and then W= P*(V2-V1).
Any help greatly appreciated ![/B]
 
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Your equation for work is valid only if the pressure is constant during the process. In the process you specify, the pressure is not a constant. In such a case, the work done is obtained by integration. Are you familiar with integration?
 
Ah i see, so i use this formula ?
upload_2018-1-30_19-45-44.png

upload_2018-1-30_19-48-10.png

Trying this using V1 = 0.18 and V2 = 0.9, I'm getting an answer of around 87kJ :frown:
 

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In your original statement, you said the process was

p = c / v2

But in your integral, you put p = c /v.
 

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