Looking at the periodic table, determine the charge of Sodium (Na) will make when it bonds with other atoms
a. -1
b. +2
c. -6
d. -2
e. +1
f. +6
The correct answer is e. +1.
Sodium (Na) is located in Group 1 of the periodic table, which means it has 1 valence electron. In order to achieve a full outer electron shell, sodium tends to lose this valence electron. By losing this electron, it forms a positive ion with a charge of +1.
To determine the charge of Sodium (Na) when it bonds with other atoms, we need to look at its position on the periodic table. Sodium is in Group 1, so it has one valence electron.
When Sodium bonds with other atoms, it tends to lose this one valence electron to achieve a stable electron configuration similar to that of the noble gas Neon.
Since it loses one electron, Sodium will have a charge of +1 when it forms bonds.
Therefore, the correct answer is e. +1.
To determine the charge of sodium (Na) when it bonds with other atoms, we need to consider its position in the periodic table. Sodium is located in Group 1, also known as the alkali metals. In this group, elements have one valence electron.
When sodium bonds with other atoms, it tends to lose this valence electron to achieve a stable electron configuration. By losing one electron, sodium obtains a positive charge equal to the number of protons in its nucleus. Since sodium has 11 protons, losing one electron gives it a charge of +1.
Therefore, the correct answer is e. +1