# Estimating the energy state of liquids

**Authors:** Lianwen Wang

arXiv: 1703.02897 · 2017-03-09

## TL;DR

This paper proposes a simplified method to estimate the energy state of liquids using vacancy energy and volume, potentially leading to a straightforward model for liquid behavior.

## Contribution

It introduces a novel approach to approximate liquid energy states based on vacancy properties, simplifying previous complex many-body interaction models.

## Key findings

- Energy state of liquids can be approximated by vacancy energy and volume.
- A possible equation of state for liquids is proposed.
- A simple model for liquids is suggested.

## Abstract

In contrast to the gaseous and the solid states, the liquid state does not have a simple model that could be developed into a quantitative theory. A central issue in the understanding of liquids is to estimate the energy state of liquids. Here, on the basis of our recent studies on crystal melting, we show that the energy sate of liquids may be reasonably approximated by the energy and volume of a vacancy. Consequently, estimation of the liquid state energy is significantly simplified comparing with previous methods that inevitably invoke many-body interactions. Accordingly, a possible equation of state for liquids is proposed. On this basis, it seems that a simple model for liquids is in sight.

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Source: https://tomesphere.com/paper/1703.02897