It hold 6 thre p orbital (Px Py Pz) and each one hold two so total is six electron can p orbital
A set of p orbitals consists of three orbitals. Each p orbital can hold a maximum of two electrons with opposite spins.
Well, honey, Aluminum has 13 electrons, and it's in the third period of the periodic table. So, it has 3 energy levels, and the p orbitals are in the second energy level. Since there are 3 p orbitals in the second energy level, and each p orbital can hold 2 electrons, that means there are 6 p orbitals occupied by electrons in an Aluminum atom.
period contain elements with electrons in s p d and f orbitals
Halogens have 5 electrons in their outermost p shell in their electrically balanced state. The p shell has 3 orbitals in each energy level. Halogens have 2 filled orbitals each with 2 electrons in them and one orbital with only one electron in it. In order to obtain the stable noble gas electron configuration, halogens gain one electron to completely fill the p shell on the outermost energy level. This gives halogens a charge of -1.
In the principal energy level n=4, you would find s, p, d, and f orbitals. These orbitals can hold different numbers of electrons and vary in shape and orientation within that energy level.
A set of p type orbitals can hold a maximum of 6 electrons, with each p orbital able to hold a maximum of 2 electrons. This is because there are three p orbitals (px, py, pz) available for electrons to occupy in a given energy level.
Six in p orbital, in each sublevel of p (px, py, pz) there are two electrons at max.
In a xenon atom, all five of its p orbitals are filled with electrons. Each p orbital can hold a maximum of 2 electrons, for a total of 10 electrons in the p orbitals of xenon.
6 electrons in 3 orbitals of p-sublevel: px, py and pz
P stands for Principal shell and it can hold 6 electrons.
6 electrons in total, 2 in each orbital
5 electrons in p orbitals in the outer shell. Cl has an electronic configuration of [Ne] 3s2, 3p5 In level 2 there a further 6 electrons in p orbitals making 11 electrons in total occupying p orbitals
Each of the p orbitals can hold 2 electrons due to the Pauli exclusion principle. Because there are 3 p orbitals in a given subshell, the overall p subshell can hold 6 electrons.
A set of p orbitals consists of three orbitals. Each p orbital can hold a maximum of two electrons with opposite spins.
Aluminum (Al) has 3 occupied p orbitals. Each p sublevel can hold a maximum of 6 electrons (2 electrons per orbital). Since aluminum has 3 valence electrons, all 3 will be in p orbitals.
There are three p orbitals in a p-shell, labeled as px, py, and pz. Each can hold a maximum of 2 electrons.
The p orbitals can hold a total of 6 electrons, with 2 electrons in each of the three p orbitals (px, py, pz).