They would have a very strong disagreement, but there would be no chemistry between them, so no compound.
The positively charged sodium atom would be attracted to the negatively charged chlorine atom, forming an ionic bond. This bond would result in the transfer of an electron from the sodium atom to the chlorine atom, forming a sodium ion and a chloride ion. These ions would then attract each other due to their opposite charges, forming a stable ionic compound known as sodium chloride or table salt.
There are three electronic shells in sodium while four in iron so Iron is larger in size. other words to make it shorter it would be the iron
The electrical charge of a sodium atom that loses an electron would be +1. This is because sodium has 11 protons and normally 11 electrons, but losing one electron would result in 10 electrons, giving it a net positive charge of +1.
An atom of sodium has one valence electron. When a sodium atom loses this electron to another atom, it becomes a sodium ion.
When a sodium atom and a chlorine atom exchange an electron, the sodium atom loses an electron to become a positively charged sodium ion, while the chlorine atom gains an electron to become a negatively charged chloride ion. These oppositely charged ions are then attracted to each other by electrostatic forces, forming an ionic bond to create sodium chloride (table salt).
Sodium chloride is formed.
The sodium atom would transfer its outer electron to the chlorine atom, forming a sodium ion with a positive charge and a chloride ion with a negative charge. These ions would then be attracted to each other, forming an ionic bond to create sodium chloride, or table salt.
The positively charged sodium atom would be attracted to the negatively charged chlorine atom, forming an ionic bond. This bond would result in the transfer of an electron from the sodium atom to the chlorine atom, forming a sodium ion and a chloride ion. These ions would then attract each other due to their opposite charges, forming a stable ionic compound known as sodium chloride or table salt.
Yes, if a chlorine atom attracts an electron from sodium, the chlorine atom would gain an extra electron and become negatively charged, forming a chloride ion (Cl-). Sodium, on the other hand, would lose an electron and become positively charged, forming a sodium ion (Na+).
If a chlorine atom were to attract an electron from a sodium atom, the sodium atom would lose an electron and become a positively charged sodium ion. The chlorine atom would gain an electron and become a negatively charged chloride ion. This process would form an ionic bond between sodium and chlorine ions, resulting in the formation of sodium chloride (table salt).
When a sodium atom forms an ionic bond with another atom, the outermost electron in the sodium atom is transferred to the other atom. This electron transfer results in the formation of a positively charged sodium ion (Na+) and a negatively charged ion of the other atom.
Sodium chloride is formed by an ionic bond.
yes sodiom atom is an isolated one it is the atom of sodium sodium chloride is salt
There are three electronic shells in sodium while four in iron so Iron is larger in size. other words to make it shorter it would be the iron
Sodium and chlorine are elements. If you mean one sodium atom and one chlorine atom yes they would be both isotopes but of different elemnts. If they were randomly sampled from nature the sodium atom would almost certainly be sodium-23 (there is only a trace of sodium-22 found in nature) and the chlorine atom would most likely be chlorine-35 as this isotope is about 75% of chlorine)
The sodium atom loses its valence electron to the chlorine atom forming a positive sodium ion and a negative chloride ion. The two are attracted to each other because of their opposite charges.
A metallic bond would be expected between two sodium atoms. In metallic bonding, electrons are delocalized and move freely between atoms, holding them together in a lattice structure. Sodium is a metal and tends to form metallic bonds with other sodium atoms.