The melting point of praseodymium is 930.8°C (1708°F). It is the temperature at which praseodymium, a rare earth element, changes from a solid to a liquid state.
At about 560 °C, it transitions to a face-centered cubic structure, and a body-centered cubic structure appears shortly before the melting point of 935 °C. Praseodymium, like all of the lanthanides (except lanthanum, ytterbium, and lutetium, which have no unpaired 4f electrons), is paramagnetic at room temperature.
It is an element found on the periodic table with the symbol Pr and atomic number 59. This rare earth metal is one of the most reactive and one of the most reactive among all rare earth metals.
Praseodymium is a silvery-white metal that has a relatively low melting point compared to other metals. Despite its relatively low melting point, it has a high boiling point, which makes it useful in a number of high-temperature applications.
For instance, it is often used in the manufacture of nuclear reactor control rods, as well as in the production of specialized alloys, such as those used in the aerospace and electronics industries.
One of the unique characteristics of praseodymium is its ability to exhibit both metallic and non-metallic properties. This is due to its partially filled 4f electron shell, which gives the metal some interesting properties, such as a strong magnetic field and a relatively high electrical conductivity.
When it comes to melting praseodymium, it is typically done in a special furnace that is designed specifically for rare earth metals. This is because praseodymium is a highly reactive metal, and it requires a specialized furnace in order to prevent any unwanted reactions from occurring.