Yes, sodium (Na) and chlorine (Cl) both have the same number of electron energy levels.
In sodium, the first level has two, the second level has eight and the third level has one.
In chlorine, the first level has two, the second level has eight and the third level has seven.
They both have three electron energy levels.
when the chlorine atom gains an electron its charge becomes -1. this is because the total number of electrons for chlorine is now 18. protons and electrons have the same atomic number, but when a chlorine ion forms it has one extra electron compared to the number of protons therefore giving it a negative charge of 1.
The chloride ion (Cl-) has 8 electrons on the outermost energy level.
Yes it will. This is a Chlorine atom accepting an electron to become a chloride ion.
Sodium-23 has three electron levels: the first energy level can hold up to 2 electrons, the second energy level can hold up to 8 electrons, and the third energy level can hold up to 8 electrons. Sodium has an atomic number of 11, so sodium-23 has 11 protons and 11 electrons in a neutral state.
Sodium has 3 energy levels, 1s, 2s, 2p, and 3s.
I believe that answer is the same as its atomic number, witch is 17.
In a hydrogen chloride (HCl) molecule, there will be a total of 17 electrons. Hydrogen contributes 1 electron, while chlorine contributes 17 electrons. The electrons will be distributed among the different energy levels based on the electron configuration of hydrogen and chlorine atoms.
Fermium has seven electron shells.
Chlorine has seven electrons in its outer energy level (valence shell). To achieve a full outer energy level, which requires eight electrons, chlorine needs to gain one electron. Therefore, chlorine typically gains one electron to fill its outer energy level and achieve stability.
There are 7 valence electrons in chlorine.
I'm not completely sure but i think it is the number of electron rings. Sulfur has three.
Astatine has multiple energy levels, but the exact number depends on the context in which you are referring to them. In an atom, astatine can have multiple electron energy levels based on its electron configuration. In a nuclear context, astatine isotopes may have different energy levels related to their nuclear structure and decay modes.
7
The farther an electron is from the nucleus, the greater its energy.
Strontium has 4 energy levels or electron shells. It can hold up to 38 electrons in total across these levels.
The levels that represent the area surrounding the center of an atom are the electron energy levels or electron shells. These are designated by the principal quantum number (n) and indicate the average distance of electrons from the nucleus.
When reading the periodic table top to bottom, the number of electron energy levels increase. This is because each row in the periodic table corresponds to one electron energy level. The number of energy level corresponds to the period number of the element.