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Thermal Properties of Lithium

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Thermal characteristic and the concepts thermodynamics of Lithium. Thermal Properties of Lithium </>
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The specific heat is the amount of heat per unit mass required to raise the temperature by one degree Celsius. Specific Heat
3.60 J/(kg K)
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1
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The molar heat capacity is the heat capacity per unit amount (SI unit: mole) of a pure substance. Molar Heat Capacity
24.86 J/mol·K
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48
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Thermal conductivity (often denoted k, λ, or κ) is the property of a material to conduct heat. Thermal Conductivity
84.80 W/m·K
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20
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The critical temperature of a substance is the temperature at and above which vapor of the substance cannot be liquefied, no matter how much pressure is applied. Critical Temperature
3,223.00 K
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1
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Thermal expansion is the tendency of matter to change in shape, area, and volume in response to a change in temperature, through heat transfer. Thermal Expansion
46.00 µm/(m·K)
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7
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Enthalpy is the sum of the internal energy and the product of pressure and volume given by the equation. Enthalpy of Lithium
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The enthalpy of vaporization, also known as the heat of vaporization, is the enthalpy change required to transform a given quantity of a substance from a liquid into a gas at a given pressure. Enthalpy of Vaporization
134.70 kJ/mol
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50
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The enthalpy of fusion also known as (latent) heat of fusion is the change in enthalpy resulting from heating a given quantity of a substance to change its state from a solid to a liquid. The temperature at which this occurs is the melting point. Enthalpy of Fusion
3.00 kJ/mol
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57
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The enthalpy of atomization (also atomisation in British spelling) is the enthalpy change that accompanies the total separation of all atoms in a chemical substance (either a chemical element or a chemical compound). Enthalpy of Atomization
160.70 kJ/mol
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52
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The standard molar entropy is the entropy content of one mole of substance, under standard conditions (not standard temperature and pressure). Standard Molar Entropy
29.10 J/mol.K
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51
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Thermodynamics of Lithium

Thermodynamics of Lithium explains the effect of temperature on this metal. Thermal properties of Lithium describe concepts like of specific heat, molar heat capacity, thermal conductivity, critical temperature, enthalpy, etc. These properties play an important role in understanding the phenomenon of thermodynamics. The behavior like ductility, magnetic ordering and viscosity are governed by thermodynamic characteristics of the metal.

The enthalpy of Lithium has some variants like enthalpy of vaporization, fusion and atomization. Their values are enthalpy of vaporization 134.70 kJ/mol, enthalpy of fusion 3.00 kJ/mol, and 160.70 kJ/mol respectively.

Specific Heat of Lithium

The specific heat of Lithium is 3.60 J/(kg K). When the specific amount of heat is applied to this metal, some structural and behavioral changes occur and those changes are known as the thermal properties of Lithium metal. Molar heat capacity of Lithium is 24.86 J/mol·K. The critical temperature is the temperature at & above which the vapor of the metal cannot be liquefied, no matter after how much extra pressure is applied on it. And the value for Lithium critical temperature is 3.60 J/(kg K).

Thermal Conductivity of Lithium

The thermal conductivity of Lithium is 84.80 W/m·K. Its thermal conductivity is an ability of this metal to conduct heat. Metals which have high thermal conductivity are used as a heat transfer medium and in heat sinks, while those with low thermal conductivity are used for thermal insulation. The thermal expansion of Lithium is 46.00 µm/(m·K). All these thermal properties of Lithium are related to the change in temperature or effect of heat and have a considerable impact on Magnetic Properties of Lithium.