Inert (or noble) gasses, such as helium, argon, neon, etc.
It can react with Hydrogen, Litium and some unknown elements.
reactivity, the tendency of an element to react with another substance is know n as its reactivity. the more the capacity of an element to react with another substance the more will be its reactivity, the series of elements arranged in their decreasing reactivity is known as reactivity series.
Any substance that contains two or more elements chemically bound is a compound.
The element argon is a noble or inert gas. As such, it doesn't want to react with any other elements.
Any of the elements in Group 0 of the Periodic Table (exc. Radon) are highly unreactive and so, won't react with any elements. They are also known as the inert gases.
yes. Even though it is less reactive it reacts with elements. One example is K2HgI4
It can react with Hydrogen, Litium and some unknown elements.
Most elements will react with at least one other substance. Certain groups of elements have certain substances that they react or don't react with. For Example, Group 1 - Alkali Metals all react vigourously with water. The Inert Gases (exc. Radon) are all highly unreactive and react with a very small amount of substances, if any.
reactivity, the tendency of an element to react with another substance is know n as its reactivity. the more the capacity of an element to react with another substance the more will be its reactivity, the series of elements arranged in their decreasing reactivity is known as reactivity series.
The Noble gasses.
yes
The reason is because they react with everything, and once they react with another element they are no longer a pure substance.
A science that deals with substance and element is the fictional science
Yes, if the substance has magnetic properties.
All of them tend not to react with each other until you get lower down the group
It won't react with any of the other elements.
It does not react with any element, but it does with any besides water. Chlorine is classified as a halogen, a highly reactive nonmetal.