The answer is Their orientation in space
All p sublevels contain three orbitals, including the 4p sublevel.
Ne has three p-orbitals.
Always three!
There are 9 occupied orbitals in a phosphorus atom's ground state: one 1s orbital, one 2s orbital, three 2p orbitals, one 3s orbital, and three 3p orbitals.
There is one s orbital and three p orbitals and five d orbitals in the third energy level.
Arsenic has three electrons occupying the three 4p orbitals in its valence shell. Hund's first rule tells us that they will each occupy separate orbitals before they start to pair up. So there are three half-filled orbitals in an arsenic atom.
One electron in each of the three p orbitals (Hund's rule)
The orbits were first introduced in Bohr's theory. According to it, orbits were circular paths for electrons, around the nucleus. It is two dimensional. On the contrary, the orbitals deals with the Shrodinger's Wave Equation. They show a probable three dimensional space where a particular electron can exist around the nucleus. Further, the shapes of the orbitals are determined from the solutions of the equation.
All matter has the following three characteristics: mass, volume, and length. These are the extensive properties. Mass also has intensive properties: density, color, conductivity, malleability, and luster.
Three completely filled orbitals.
All three 2p orbitals (2px, 2py, 2pz) are occupied by two electrons each.(6 electrons in total: (2px2, 2py2, 2pz2) = 2p6)
three maximum starting from 3p