The element with 2 electrons in the 1s sub-level, 2 electrons in the 2s sub-level, and 2 electrons in the 2p sub-level is carbon (Atomic number: 6).
The 5p sublevel is completed with 6 electrons with the addition of the element radon (Rn).
In all p sublevels there are 3 sublevels, including 6p.
The atomic no of Boron is 5 , so two electrons in ist shell the last three electrons are divided in two sub energy levels two in lower level 's' and one in higher level 'p'
The atom is the smallest particle of an element that retains it's characteristics. Sub-atomic particles such as protons, neutrons and electrons form the atom and it is the amount of each of these sub-atomic particles that make the element that element.
The element cerium has a single electron in the 4f orbital. Its electron configuration is [Xe] 4f1 5d1 6s2.
The element with three unpaired electrons in the p sub level is phosphorus. It has a electron configuration of 1s2 2s2 2p6 3s2 3p3, with three unpaired electrons in the 3p sublevel.
The element with 2 electrons in the 1s sub-level, 2 electrons in the 2s sub-level, and 2 electrons in the 2p sub-level is carbon (Atomic number: 6).
Zinc
These would be p block elements in group 5 (XV)N, P, As, Sb, Bi
The 5p sublevel is completed with 6 electrons with the addition of the element radon (Rn).
In uranium 238, the highest sublevel electron occupies is the 5f sublevel. Uranium has 92 electrons, so filling up the electron configuration involves reaching the 5f sublevel before completing the entire orbital diagram.
Girls Generation's sub-group is Taetiseo (TTS)
A sub folder is when you put a folder in another folder and a sub level folder is when you put more than one sub folder in another sub folder.....
The locust belongs to the reptile group. The sub-group the locust belongs to is, I think, arthropods.
Elements cant be, unless you are talking about sub-atomic level. Substances can be broken down to elements possibly.
You can determine what element an atom is by it's amount of sub-atomic particles and their positions. Every element has a different amount of electrons, so that is the easiest way to determine what type an atom is. If you wanted to determine it more broadly, for example, which group an element was in, you could just count the amount of electrons in the outer shell, as each group is unique in this way.