One orbital - 6s which can hold 2 electrons.
There are 6 distinct quantum states that could be referred to as "6p" (or any-other-number-p, for that matter).
6
5
The valence electrons are the electrons in the partially filled outermost shell (or shells).Simplified; Oxygen has the shells filled in the following way.1s22s22p4The 2s and 2p subshells make up the outer most shell for oxygen. In the 2p subshell, It is stable with 6 electrons but with oxygen only has 4. The subshell has 3 different orbitals which can contain 2 electrons in each. This means that 1 of the orbitals is completely full while the other two only have one electron. From this we can say that there are 2 bonding valence shell electrons. Because there is a possibility of having a total of 8 electrons in the 2nd shell, this means that there must be 4 electrons which are non bonding in oxygen's valence shell.
A subshell is a subdivision of electron shells.
Subshell or Subshells
There are three p orbitals in all levels 2 and above. these are the px, py and pz orbitals, the (suffix is the direction - px lies along the x axis). In the 5th level they will be 5px, 5py, 5pz
Subshell letters indicate electron shells. The letters K-Q or numbers 1-7 are called subshell letters. They are placed in superscript form.
7 Orbitals
There are four orbitals of the f subshell. The name of the four f subshells include 4s, 4p, 4d, and 4f. The historical name of the f subshells is called "fundamental subshells".
five
10 electrons.
number of l
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.
All p sublevels contain three orbitals, including the 4p sublevel.
8
There are 36 types of orbitals in the sixth shell.
The maximum number of f orbitals in any single energy level in an atom is 7.
zero - after the 4s orbitals are filled at Calcium, the 3d orbitals start to fill - not until Gallium do the 4p orbitals start to fill.
the d-sub shell has five orbitals