Inert gases, such as helium, neon, and argon, typically do not react with other elements due to their stable electron configuration. However, under certain extreme conditions, such as high temperatures or electrical discharge, they can react with highly reactive elements like fluorine and oxygen to form compounds. The reaction with fluorine and oxygen helps stabilize the electron configuration of the inert gas, making the compound more stable.
No, inert gases should not be stored with oxidizing gases. Inert gases like nitrogen or argon are used to displace oxygen in storage containers to prevent combustion or oxidation reactions. Storing them with oxidizing gases could lead to potential fire or explosion hazards.
The opposite of an inert gas would be a reactive gas. Inert gases are stable and do not readily react with other elements, while reactive gases are more likely to form chemical bonds with other elements. Examples of reactive gases include oxygen, chlorine, and fluorine.
inert gases have a complete valence shell and it takes a lot of energy for them to react. active gases do not have a complete outer shell and are more readily to reactive with other substances.
The elements in Family 18 are called inert gases because they are chemically non-reactive. This is due to their stable electron configuration with a full outer shell, making them unlikely to gain or lose electrons to form chemical bonds with other elements.
Helium is inert and does not readily react with other elements, including fluorine. Fluorine is a highly reactive element and will readily react with many other elements, but not with helium due to its stable electron configuration.
Oxygen itself is not inert, as it can react with many other substances. However, it is not as reactive as some other elements like fluorine or chlorine. In certain conditions, oxygen can support combustion and react with other elements or compounds.
No, inert gases should not be stored with oxidizing gases. Inert gases like nitrogen or argon are used to displace oxygen in storage containers to prevent combustion or oxidation reactions. Storing them with oxidizing gases could lead to potential fire or explosion hazards.
Noble gases are generally chemically inert at S.T.P. However, at extreme conditions, xenon and krypton react with electronegative elements like fluorine and oxygen forming fluorides and oxyfluorides.
The two abnormal noble gases will be xenon and krypton. Noble gases are generally chemically inert at S.T.P. However, xenon and krypton react with electronegative elements like fluorine and oxygen forming fluorides and oxyfluorides.
Noble gases that do not react with other elements are called inert gases. These gases have a full outer electron shell, making them stable and unreactive under normal conditions. Examples include helium, neon, argon, krypton, xenon, and radon.
Compressed medical air is not considered an inert gas. It is a mixture of gases, primarily oxygen and nitrogen, that is used for medical purposes to provide oxygen therapy to patients. Inert gases, like helium or argon, do not readily react with other substances.
Helium is the only perfectly inert element, although there are several other inert elements which can be made to react with fluorine only with great difficulty, by the use of high temperature and pressure.
The opposite of an inert gas would be a reactive gas. Inert gases are stable and do not readily react with other elements, while reactive gases are more likely to form chemical bonds with other elements. Examples of reactive gases include oxygen, chlorine, and fluorine.
Two inert gases are helium and neon. These gases are considered inert because they are highly stable and do not readily react with other elements or compounds under normal conditions.
Inert means they don't react. Group 18, the noble gases, are inert.
inert gases have a complete valence shell and it takes a lot of energy for them to react. active gases do not have a complete outer shell and are more readily to reactive with other substances.
Noble gases are also known as inert gases because it takes extreme conditions for them to react with any other element, including themselves.