Birch–Murnaghan equation of state: Difference between revisions

The Birch–Murnaghan isothermal equation of state, published in 1947 by Albert Francis Birch of Harvard,^[1] is a relationship between the volume of a body and the pressure to which it is subjected. Birch proposed this equation based on the work of Francis Dominic Murnaghan of Johns Hopkins University published in 1944,^[2] so that the equation is named in honor of both scientists.

The third-order Birch–Murnaghan isothermal equation of state is given by $${\displaystyle P(V)={\frac {3B_{0}}{2}}\left[\left({\frac {V_{0}}{V}}\right)^{7/3}-\left({\frac {V_{0}}{V}}\right)^{5/3}\right]\left\{1+{\frac {3}{4}}\left(B_{0}^{\prime }-4\right)\left[\left({\frac {V_{0}}{V}}\right)^{2/3}-1\right]\right\}.}$$ where P is the pressure, V₀ is the reference volume, V is the deformed volume, B₀ is the bulk modulus, and B₀' is the derivative of the bulk modulus with respect to pressure. The bulk modulus and its derivative are usually obtained from fits to experimental data and are defined as $${\displaystyle B_{0}=-V\left({\frac {\partial P}{\partial V}}\right)_{P=0}}$$ and $${\displaystyle B_{0}'=\left({\frac {\partial B}{\partial P}}\right)_{P=0}}$$ The expression for the equation of state is obtained by expanding the Helmholz free energy in powers of the finite strain parameter f, defined as $${\displaystyle f={\frac {1}{2}}\left[\left({\frac {V_{0}}{V}}\right)^{2/3}-1\right]\,,}$$ in the form of a series.^{[3]: 68–69} This is more evident by writing the equation in terms of f. Expanded to third order in finite strain, the equation reads,^[3]: 72 $${\displaystyle P(f)=3B_{0}f(1+2f)^{5/2}(1+af+{\mathit {higher~order~terms}})\,,}$$ with ${\displaystyle a={\frac {3}{4}}(B_{0}'-4)}$.

The internal energy, E(V), is found by integration of the pressure: $${\displaystyle E(V)=E_{0}+{\frac {9V_{0}B_{0}}{16}}\left\{\left[\left({\frac {V_{0}}{V}}\right)^{2/3}-1\right]^{3}B_{0}^{\prime }+\left[\left({\frac {V_{0}}{V}}\right)^{2/3}-1\right]^{2}\left[6-4\left({\frac {V_{0}}{V}}\right)^{2/3}\right]\right\}.}$$

• Albert Francis Birch
• Francis Dominic Murnaghan
• Murnaghan equation of state

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