Van der Waal's equation of state

AI Thread Summary
Van der Waals' equation of state, expressed as (P+A/v²)(v-b) = RT, is an approximation that accounts for molecular interactions but often fails to align with experimental data. The equation treats molecules as hard spheres with intermolecular attractions represented by the term a/v², while b accounts for the volume occupied by the molecules themselves. Users seek methods to improve the equation's accuracy in predicting real gas behavior, as it is primarily a first-order approximation derived from the ideal gas law. Suggestions for reconciliation may include refining the parameters a and b or exploring more complex models that better capture molecular interactions. Addressing these shortcomings is essential for enhancing the predictive power of the Van der Waals equation in practical applications.
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Help me on this one - Van der Waal's equation of state

suggest ways of reconciling Van der Waal's equation of state with experimental observations
 
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Do you know what Van der Waal's equation is? What are the experimental observations and why should Van der Waal's equation need "reconciling".

In other words, show us what you know about this question so we can help you!
 
Vander Waal's equation is given as (P+A/v2)(v-b) = RT which is an approximate theoretical treatment. The molecules are treated as hard attracting spheres and the term a/v2 arises from the intermoleculer attractions. Both a/v2 and b are first approximations only and were used to give 1st order derivations from the ideal gas law.
As compared to experimantal results, the VDW equation of state comes short.I would like to suggestions of how to overcome these short comings so as to be able to reconcile the equation with the experimental results.
 
Vander Waal's equation is given as (P+A/v2)(v-b) = RT which is an approximate theoretical treatment. The molecules are treated as hard attracting spheres and the term a/v2 arises from the intermoleculer attractions. Both a/v2 and b are first approximations only and were used to give 1st order derivations from the ideal gas law. PV=NRT
As compared to experimantal results, the VDW equation of state comes short.I would like to suggestions of how to overcome these short comings so as to be able to reconcile the equation with the experimental results.
 

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