This value is 198 J/kg.K at the melting point of uranium.
The molar heat of uranium is 27.665 J/mol.K.
Uranium is a silvery-grey metal in both solid and liquid state, However on exposure to air it produces a black uranium oxide on its surface, which would happen much faster to liquid uranium than to solid uranium.
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)
Any isotope of uranium is specific. This notion don't exist.
This mixing is impossible; liquid nitrogen become a gas. Possible formation of uranium nitrides.
The molar heat of uranium is 27.665 J/mol.K.
This value is 27,665 J/mol.K.
determination of specific heat capacity of liquid by method of electrical heating
There is not a common specific heat among metals. The specific heat of metals ranges from .12 J / kg K for uranium to 1.83 J / kg K for Beryllium.
Now liquid uranium has not applications.
Uranium is liquid above 1 132,2 0C.
The specific heat of liquid water is 4.183 J / g K. Lithium liquid has a higher specific heat at 4.379, as does Hydrogen gas at 14.30. Helium gas also does at 5.1932 Finally, liquid Ammonia has a higher specific heat at 4.700.
Uranium is a silvery-grey metal in both solid and liquid state, However on exposure to air it produces a black uranium oxide on its surface, which would happen much faster to liquid uranium than to solid uranium.
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)
water has it's highest specific heat in it's liquid state at 4.184 J/g-K
Any isotope of uranium is specific. This notion don't exist.
No. Uranium is generally used in solid form.