No it wont.
Cl- and Ca2+ has the electronic configuration of the noble gas, Ar, with 18 electrons.
Alkali metals and alkaline earth metals will form ions (by losing 1 and 2 electrons respectively) with noble gas electron configuration.
The symbiol depends on the type of noble gas. So its not constant. It may be positive or even negative.
A noble gas electronic configuration has an outer shell of ns2, np6. Examles of ions with this configuration are O2- [He], 2s2 2p6 (the neon configuartion) Cl- [Ne] 3s2 3p6 (the argon configuration)
There is no noble gas configuration for hydrogen.
yes
Cl- and Ca2+ has the electronic configuration of the noble gas, Ar, with 18 electrons.
Alkali metals and alkaline earth metals will form ions (by losing 1 and 2 electrons respectively) with noble gas electron configuration.
The symbiol depends on the type of noble gas. So its not constant. It may be positive or even negative.
A noble gas electronic configuration has an outer shell of ns2, np6. Examles of ions with this configuration are O2- [He], 2s2 2p6 (the neon configuartion) Cl- [Ne] 3s2 3p6 (the argon configuration)
There is no noble gas configuration for hydrogen.
Noble Gas
It will be P3+ ions as it is in Group V.
All the elements in their normal state are reactive and unstable. In order to attain stability i.e. a state of minimum energy, they tend to form ions by loosing or gaining electrons. By doing so, they achieve stable electronic configuration or noble gas configuration. However, some elements do not form ions. Instead of that, two such atoms share electrons with each other and achieve this noble gas configuration. At the end, the main reason for attaining a noble gas configuration is to attain max. stability and min. energy.
None. However, the noble gas helium is isoelectronic with Li+ ion (and not with Li element)
Krypton is a noble gas and already has noble gas configuration.
They usually achieve "Noble Gas" configuration