Neon
Argon would most likely not react with hydrogen because argon is a noble gas, which are known for their stability and lack of reactivity. Carbon, on the other hand, can react with hydrogen to form various compounds such as methane.
Fluorine was a good choice to react with xenon because fluorine is highly reactive and electronegative, which makes it capable of forming strong bonds with xenon. Also, xenon's electron configuration allows it to expand its valence shell, making it more likely to react with fluorine.
No, they are not. Fluorine, chlorine, and iodine are halogens, meaning they have 7 valence shell electrons. They are the second most nonreactive group of elements, besides the noble gases, which have 8 and do not react at all.
Aluminum does react with fluorine gas (which is the most corrosive substance known to science).
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.
These are the so-called noble gases.
Because fluorine is having the most electronegativity and is the most reactive non metal.
Argon is the least likely in the list to react with other elements, because argon is a noble gas and none of the other elements in the list is.
Lithium is most likely to react and form a compound because it is a highly reactive alkali metal that readily forms compounds with other elements. Neon is a noble gas and is very stable, while carbon and fluorine are nonmetals that may react but not as readily as lithium.
Group-18 elements least react with other elements. They are inert in nature. They are called noble gases.Elements in group 18 are less likely to react with any other elements. This group is made out of the noble gases. Its members are He, Ne, Ar, Kr, Xe and Rn.
noble gases, or inert gases they are the same thing and they are group 18 they have full valence electrons so they are unlikely to react with other elements
Chlorine is the element that will most likely react similarly to fluorine because they are both part of the halogen group, which are highly reactive nonmetals with similar chemical properties.
Fluorine is the most reactive halogen because it has the highest electronegativity among the halogens and smallest atomic size, making it highly reactive and capable of forming strong chemical bonds with other elements.
Argon would most likely not react with hydrogen because argon is a noble gas, which are known for their stability and lack of reactivity. Carbon, on the other hand, can react with hydrogen to form various compounds such as methane.
Fluorine is a highly electronegative element that forms strong bonds, which allows it to react with xenon, a noble gas. Iodine, on the other hand, is less reactive and does not have the same ability to form strong bonds with xenon.
Fluorine is a highly reactive element that is looking to gain an electron to achieve a full outer shell, while neon is a noble gas with a stable full outer shell of electrons. This makes fluorine eager to react with neon in order to gain stability by forming ionic bonds and completing its valence shell.
Elements that are likely to react with calcium include oxygen, chlorine, fluorine, and sulfur. Oxygen can form oxides of calcium, while chlorine and fluorine can form calcium halides. Sulfur can react with calcium to form calcium sulfide.