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The outermost electron shell is called the valence shell. It contains the most reactive electrons because these electrons are farthest from the nucleus and are more likely to interact with other atoms to form chemical bonds.
No, helium is not reactive because it is a noble gas and has a full outer electron shell, making it very stable. In contrast, argon is also a noble gas and is not reactive due to its full outer electron shell.
Nickel is more reactive than xenon. Nickel is a transition metal and can undergo various chemical reactions, such as oxidation and reduction, whereas xenon is a noble gas and is generally unreactive due to its full outer shell of electrons.
Xenon is less reactive than bromine. This is because xenon is a noble gas with a stable electron configuration, while bromine is a halogen that tends to gain an electron to achieve a full outer shell, making it more reactive than xenon.
Two valence electrons make an atom chemically reactive because it wants to either gain or lose electrons to achieve a full valence shell. This makes it more likely to form bonds with other atoms to reach a stable electron configuration.
Chemistry of calcium Calcium is generally more reactive than magnesium
The outermost electron shell is called the valence shell. It contains the most reactive electrons because these electrons are farthest from the nucleus and are more likely to interact with other atoms to form chemical bonds.
No, helium is not reactive because it is a noble gas and has a full outer electron shell, making it very stable. In contrast, argon is also a noble gas and is not reactive due to its full outer electron shell.
Nickel is more reactive than xenon. Nickel is a transition metal and can undergo various chemical reactions, such as oxidation and reduction, whereas xenon is a noble gas and is generally unreactive due to its full outer shell of electrons.
No, krypton is not more reactive than arsenic. Krypton is a noble gas, which means it has a full valence shell and is generally inert, exhibiting very low reactivity. In contrast, arsenic is a metalloid that can form various compounds and is more chemically reactive under certain conditions. Therefore, arsenic is more reactive than krypton.
Displacement has both physics and chemistry meanings:Physics - the shortest distance between two points.Chemistry - a displacement reaction is where a less reactive element is removed in place of a more reactive one.
Reactions in chemistry are all about the number of electrons in the outer shell of an atom. Generally the more space it has in this shell the more reactive it will be. Group 1 have only 1 electron in the outer shell, group 8 have 8 (8 is the maximum possible so these elements are not reactive).
I think lithium should be more reactive as it has only 1 valance electron wheres Boron has 3 valance electrons. The electro positivity(tendency to lose electrons) of Lithium is greater then Boron, therefore more reactive.
Xenon is less reactive than bromine. This is because xenon is a noble gas with a stable electron configuration, while bromine is a halogen that tends to gain an electron to achieve a full outer shell, making it more reactive than xenon.
Group one elements are generally more reactive than group two elements. This is because group one elements have one electron in their outermost shell, making them more willing to react and form compounds in order to achieve a stable electron configuration. Group two elements have two electrons in their outermost shell, which makes them less reactive than group one elements.
Berylium is a alkaline earth metal and is fairly reactive. Argon is a noble gas that is very unreactive. Therefore Be is more reactive
Kr (krypton) is more stable than K (potassium) due to its full valence shell of electrons, which provides greater stability. Potassium is a highly reactive metal that readily loses its single valence electron, making it more chemically reactive and less stable than krypton, which is a noble gas with a full valence shell.