Yes.
Sodium will likely form a +1 cation, or sodium ion, by losing one electron to achieve a stable electron configuration.
No, sodium's outer shell is not stable because it only has one electron in its outer shell. Sodium will readily react with other elements to achieve a stable electron configuration by losing this electron.
Sodium has 1 valence electron in its outer shell. By losing this electron, sodium achieves a full outer shell, which is more stable. This stable configuration is achieved by following the octet rule, where atoms tend to gain, lose, or share electrons to have 8 electrons in their outer shell.
Sodium Na ions have a charge of +1 because they lose one electron to achieve a stable electron configuration. Sodium typically has 11 electrons, with 1 electron in its outermost shell. By losing this electron, it forms a stable cation with a +1 charge.
Sodium loses an electron to achieve a stable electron configuration like the nearest noble gas, which is neon. By losing one electron, sodium attains a full outer shell and becomes more stable with a positive 1 charge.
Sodium can become stable by losing 1 electron, forming a sodium ion with a 1+ charge, with the formula Na+. By losing its single valence electron, the resulting sodium ion achieves the noble gas configuration of neon, so that it has an octet (8) of valence electrons.
Sodium will likely form a +1 cation, or sodium ion, by losing one electron to achieve a stable electron configuration.
No, sodium's outer shell is not stable because it only has one electron in its outer shell. Sodium will readily react with other elements to achieve a stable electron configuration by losing this electron.
Sodium has 1 valence electron in its outer shell. By losing this electron, sodium achieves a full outer shell, which is more stable. This stable configuration is achieved by following the octet rule, where atoms tend to gain, lose, or share electrons to have 8 electrons in their outer shell.
Sodium Na ions have a charge of +1 because they lose one electron to achieve a stable electron configuration. Sodium typically has 11 electrons, with 1 electron in its outermost shell. By losing this electron, it forms a stable cation with a +1 charge.
Sodium loses an electron to achieve a stable electron configuration like the nearest noble gas, which is neon. By losing one electron, sodium attains a full outer shell and becomes more stable with a positive 1 charge.
Sodium has 1 electron in its outer shell, while chlorine has 7 electrons in its outer shell. To achieve a stable electron configuration, sodium will donate its electron to chlorine, forming an ionic bond. This results in sodium losing 1 electron and chlorine gaining 1 electron to form sodium chloride.
Sodium. A sodium atom has one valence electron in its 3rd energy level. This is very unstable, so a sodium atom will lose that single valence electron to another atom (nonmetal), and the 2nd energy level will then have 8 valence electrons, which is stable. The positively charged sodium ion, Na+, will bond with a negatively charged ion; either a nonmetal or a polyatomic ion.
Sodium only has one electron in its outer energy level which it wants to lose in order to leave a stable octet of electrons in the level below. Loss of one electron causes a charge of plus 1 on the remaining ion.Magnesium has two electrons in its outer energy level, thus by losing these it takes on a charge of plus 2 and leaves a stable octet of electrons below in the next energy level.
Sodiumbeing in group 1 needs to loose 1e- to become stable. Chlorine being from group 17 needs to gain 1e- to become stable. Sodium gives its extra electronto the chlorine atom. Now both have 8 electrons in their valence and are stable. The sodium gets a positive charge because it lost and electron. The chlorine gets a negative charge because it gained an electron.This creates an ionic bond
A neutral sodium atom must lose one electron to have the electron configuration of neon, which has a stable electron configuration with a full outer shell. Sodium typically forms a +1 cation by losing this one electron to achieve a stable configuration like neon.
The valency of sodium is 1 because it has one electron in its outermost shell. By losing that one electron, sodium achieves a stable electron configuration with a full outer shell, which is typical of noble gases. This results in a sodium ion with a net positive charge of +1.