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Krypton is a chemical element, which can be found in trace amounts in the atmosphere. It is considered to be an inert noble gas. Several isotopes are known. They are krypton, kryptonium, kryptonium-argon, kryptonium-xenon, and kryptonium-nitride. Each isotope has different properties, such as its hardness. The most common isotopes of krypton are krypton-xenon and krypton-argon. These are usually used in fluorescent lamps.
One of the noble gases, xenon, is colorless, odorless and tasteless. It is used in certain specialized light sources, such as those based on ultraviolet (UV) light. A few studies have been conducted on the mechanical properties of solid rare gases.
Xenon is very similar to carbon dioxide. Both are considered noble gases. However, xenon is less reactive than carbon dioxide.
Xenon’s hardness is low, as it is chemically inert. Its coefficient of friction is only slightly greater than 0*1 at temperatures below liquid hydrogen’s melting point. Moreover, krypton’s hardness is relatively low in the same temperature range.
The hardness of krypton is determined by its ability to scratch other substances. The resulting coefficient of friction is comparable to that of ice and rock salt. In addition, the shear strength of krypton in contact is 0*7 Kg/mm2.
However, the lack of significant Kr-O interactions indicates that it does not have a substantial chemical interaction. This suggests that the lack of hardness might be due to the pressure-melting of krypton.
It is important to note that the chemistry of krypton is different from that of bulk krypton. This is in part due to the framework structure of krypton, which is different from the high-pressure hcp structure of bulk krypton.