All of the Noble Gases, which are on the right side of the Periodic Table, have a full outer energy level. The elements that are Noble Gases are the following:
Neon
Argon
Krypton
Xenon
Radon
Ununoctium
Yes it is . The outer argon is full becoz it has 18 electrons
Insulators are typically elements that have a full outer electron shell, making them stable and less likely to conduct electricity. These elements include noble gases like helium and neon, as well as nonmetals such as oxygen and sulfur.
Elements are in fact a bundle of energy if you will. I believe what your asking is How can you tell if an element will conduct electricity. If an atom contains less the the required atoms for its outer shell to become full and stable, it is classified as a conductor. Here's why: The atoms of a given element is composed of the protons, neutrons, and electrons. Electrons are the "electricity" part of an atom. These electrons orbit the protons and neutrons that are at the center of the atom. The electrons are in Valence shells, which is basically which orbit the electrons are on, the closest shell/orbit can contain only 2 electrons, and then it is said to be stable and full; the second valence shell/orbit can only contain 8 electrons, and then it is said to be stable and full; the third valence shell/orbit can only contain 8 electrons, and then it is said to be stable and full also ect.... Now, if we took the third valence shell, and it only contained 1 electron, it is NOT stable and full, so this 1 electron/electricity-part-of-the-atom is free to float around to other empty shells. This is due to the fact that the electrons always want to be in a stable shell/orbit. Some atoms of certain elements naturally contain a full AND therefore stable outer valence shell, (the furthest shell/orbit away.) If an atom contains less the the required atoms for its outer shell to become full and stable, it is classified as a conductor.
When someone is said to be full of energy, it typically means that they are lively, enthusiastic, and have a lot of stamina. They may display high levels of physical or mental activity and seem to radiate a sense of vitality and dynamism.
An atomic spectrum typically has a distinct set of lines, which correspond to specific energy levels within the atom. Each line represents a specific transition of an electron between energy levels.
STUDY
Elements that do not have full outer energy levels are more stable in a bonded state where they can share or transfer electrons to achieve a full outer energy level. This stability is achieved through the formation of chemical bonds, such as ionic or covalent bonds, with other atoms to reach a more energetically favorable electron configuration.
Yes they have full energy levels,this makes them stable.They are highly unreactive, to add on that ionisation is very high in noble gases.
Noble Gases
The column on the periodic table that contains elements with completely filled outer energy levels is the noble gases column (group 18 or Group 8A). These elements have a full outermost energy level, making them stable and less likely to form bonds with other elements.
If the outer energy level of an atom is already filled with electrons, it is less likely to react because atoms tend to be more stable when their outer energy levels are full. This full outer level signifies that the atom has achieved a more stable electron configuration (usually the octet rule for most elements).
Nonmetals almost have a full outer energy level while metals have few electrons in their outer energy level.
The noble gas elements have outermost energy levels with full s and p orbitals.
Correct, noble gases such as helium have full outer energy levels and are stable, making them unlikely to form compounds with other elements. In the case of helium, it has only two electrons in its outer energy level, fulfilling the octet rule without the need to gain or lose electrons.
Noble gases are the gases in the rightmost column of the Periodic Table that have a full outer energy level. This is why the noble gases do not react with other elements readily. When an atom has a full outer energy level, it means that it has the maximum number of electrons in these outer shells, making it stable.
The ground state of Oxygen contains only eight electrons in only the first two energy levels.
The noble gases is the most stable group of elements. They have their outer electron energy levels full, but the number of electrons vary according to which noble gas it is. They are group 18 on the periodic table.