No it wont.
Transition metals such as copper, silver, and gold can form ions with a noble gas electron configuration. This occurs when they lose electrons to achieve a stable electron configuration similar to the nearest noble gas.
Cl- and Ca2+ has the electronic configuration of the noble gas, Ar, with 18 electrons.
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)
Rb is likely to adopt a noble gas configuration of [Kr] when it forms ions. This means it will lose one electron to achieve a stable octet configuration, similar to the nearest noble gas element, krypton.
Transition metals such as copper, silver, and gold can form ions with a noble gas electron configuration. This occurs when they lose electrons to achieve a stable electron configuration similar to the nearest noble gas.
yes
Cl- and Ca2+ has the electronic configuration of the noble gas, Ar, with 18 electrons.
The symbiol depends on the type of noble gas. So its not constant. It may be positive or even negative.
The electron configuration of Thallium III ion (Tl3+) is [Xe] 4f14 5d10, where [Xe] represents the electron configuration of xenon (54 electrons) which precedes thallium on the periodic table. Thallium loses 3 electrons to achieve a noble gas configuration.
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)
Rb is likely to adopt a noble gas configuration of [Kr] when it forms ions. This means it will lose one electron to achieve a stable octet configuration, similar to the nearest noble gas element, krypton.
None. However, the noble gas helium is isoelectronic with Li+ ion (and not with Li element)
It will be P3+ ions as it is in Group V.
The stable ions of all the elements except the Transition metals, Actinide, and Lanthanide series (that is the d and f block elements) form stable ions that are isoelectronic to a nobel gas by gaining or losing electrons in order to achieve an s2 p6 stable octet. For example, sodium will lose one electron to have the same electron configuration as neon, while nitrogen will gain three electrons to become isoelectronic to neon.
The pseudo noble-gas electron configuration has the outer three orbitals filled, the s, p and d- s2p6d10 (18 electrons total) and so is fairly stable. Elements that attain this electron configuration are at the right side of the transition metals (d-block). Br-, I-, Se2-
Chemical properties depend on electron configuration. By either gaining or losing electrons, an atom changes its electron configuration and therefore its chemical properties also change.The atoms of an element will react to achieve a noble-gas configuration. The atoms will either gain or lose electrons to achieve such a configuration.