Ex. 38 Answer
Ex. 38 Answer

the principles of thermodynamics by n.d. hari dass
the principles of thermodynamics by n.d. hari dass

Classical Electromagnetism
Classical Electromagnetism

Diffusion Theory of Ion Permeation Through Protein Channels of
Diffusion Theory of Ion Permeation Through Protein Channels of

CHAPTER 10-11 PRACTICE FOR TEST Answer Section
CHAPTER 10-11 PRACTICE FOR TEST Answer Section

Collected Scientific Papers - SN Bose National Centre for Basic
Collected Scientific Papers - SN Bose National Centre for Basic

Thermodynamics Institute of Lifelong Learning, University of Delhi
Thermodynamics Institute of Lifelong Learning, University of Delhi

Chemical Thermodynamics
Chemical Thermodynamics

Test - FloridaMAO
Test - FloridaMAO

Nonlocal optical response in metallic nanostructures
Nonlocal optical response in metallic nanostructures

2. Local equilibrium thermodynamics.
2. Local equilibrium thermodynamics.

Alkanes
Alkanes

A Generalized Statement of Highest
A Generalized Statement of Highest

Density Cube Lab
Density Cube Lab

7.1 Equilibrium PPT equilibrium1
7.1 Equilibrium PPT equilibrium1

derivation of some new distributions in statistical mechanics using
derivation of some new distributions in statistical mechanics using

Electromagnetic Field Theory
Electromagnetic Field Theory

still air parameters
still air parameters

Knowledge Check (Answer Key)
Knowledge Check (Answer Key)

Steam - Student Guide
Steam - Student Guide

Thermodynamics
Thermodynamics

Elmer non-GUI Tutorials
Elmer non-GUI Tutorials

The mole concept Since Compounds are formed
The mole concept Since Compounds are formed

Modelling of Boil-Off Gas in LNG Tanks
Modelling of Boil-Off Gas in LNG Tanks

Hygroscopic growth and critical supersaturations for mixed aerosol
Hygroscopic growth and critical supersaturations for mixed aerosol

Van der Waals equation



The van der Waals equation is a thermodynamic equation describing gases and liquids (fluids) under a given set of pressure (P), volume (V), and temperature (T) conditions (i.e., it is a thermodynamic equation of state). In particular, it theorizes that fluids are composed of particles with non-zero volumes, and subject to a pairwise inter-particle attractive force. It was derived in 1873 by Johannes Diderik van der Waals, who received the Nobel Prize in 1910 for ""his work on the equation of state for gases and liquids,"" who did related work on the attractive force that bears his name. It is available via its traditional derivation (a mechanical equation of state), or via a derivation based in statistical thermodynamics, the latter of which provides the partition function of the system and allows thermodynamic functions to be specified. The resulting equation is a modification to and improvement of the ideal gas law, taking into account the nonzero size of atoms and molecules and the attraction between them. It successfully approximates the behavior of real fluids above their critical temperatures and is qualitatively reasonable for their liquid and low-pressure gaseous states at low temperatures. However, near the transitions between gas and liquid, in the range of P, V, and T where the liquid phase and the gas phase are in equilibrium, the van der Waals equation fails to accurately model observed experimental behaviour, in particular that P is a constant function of V at given temperatures. As such, the van der Waals model is useful only for teaching and qualitative purposes, but is not used for calculations intended to predict real behaviour. Empirical corrections to address these predictive deficiencies have been inserted into the van der Waals model, e.g., by James Clerk Maxwell in his equal area rule, and related but distinct theoretical models, e.g., based on the principle of corresponding states, have been developed to achieve better fits to real fluid behaviour in equations of comparable complexity.