Thermodynamic Properties of Solids 2010
DOI: 10.1002/9783527630417.ch5
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Heat Capacity of Solids

Abstract: Each atom in solids oscillates about its equilibrium position over a wide range of frequencies from zero up to a maximum value, and the conduction electrons in metals are freely mobile in solids. The oscillation of atoms and movement of electrons contribute to the internal energy of solids. When we heat a sample, solids absorb heat, and some of the phonons and electrons are excited thermally, so the internal energy of solids is expected to increase. The increase in internal energy due to lattice vibration of a… Show more

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Cited by 4 publications
(2 citation statements)
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“…The heat capacities at constant pressure Cp${C}_p$ and volume Cv${C}_v$ are assumed to be obtained using the following equations, 51 0.33em0.33emCpbadbreak=0.33emClgoodbreak+Cschgoodbreak+Cdgoodbreak+Cexe$$\begin{equation}\ \ {C}_p = \ {C}_l + {C}_{sch} + {C}_d + {C}_{exe}\end{equation}$$ 0.33em0.33emCvbadbreak=0.33emClgoodbreak+Cschgoodbreak+Cexe.$$\begin{equation}\ \ {C}_v = \ {C}_l + {C}_{sch} + {C}_{exe}.\end{equation}$$…”
Section: Heat Capacity Representationmentioning
confidence: 99%
“…The heat capacities at constant pressure Cp${C}_p$ and volume Cv${C}_v$ are assumed to be obtained using the following equations, 51 0.33em0.33emCpbadbreak=0.33emClgoodbreak+Cschgoodbreak+Cdgoodbreak+Cexe$$\begin{equation}\ \ {C}_p = \ {C}_l + {C}_{sch} + {C}_d + {C}_{exe}\end{equation}$$ 0.33em0.33emCvbadbreak=0.33emClgoodbreak+Cschgoodbreak+Cexe.$$\begin{equation}\ \ {C}_v = \ {C}_l + {C}_{sch} + {C}_{exe}.\end{equation}$$…”
Section: Heat Capacity Representationmentioning
confidence: 99%
“…Therefore, as explained in [1,2], the Debye theory, and other models built upon it like the Born-von Karman theory of lattice dynamics, could not have been mathematically implemented at that time. Nevertheless, the Debye theory (or rather its elements) remains a standard model of condensed matter physics [11][12][13][14]. The Debye theory is usually presented as a model for the lattice specific heat.…”
mentioning
confidence: 99%