6th energy level can hold 72 electrons. (has s,p,d,f,g,
and h subshells)
The maximum number of unpaired electrons in the s subshell is 2, in the p subshell is 6, in the d subshell is 10, and in the f subshell is 14. This is based on the maximum number of electrons that can occupy each subshell according to the Aufbau principle and the Pauli exclusion principle.
2 electrons are found in the first electron shell.
The f-suborbitals begin to be filled with the lanthanoids (atomic number 57-71). Each f-suborbital can hold a maximum of 14 electrons.
The maximum number of electrons that can occupy the third energy level is 18. This level has 2 sublevels, s and p, which can hold a total of 18 electrons. The s sublevel can hold 2 electrons, and the p sublevel can hold 6 electrons, so the total is 2 + 6 + 10 = 18 electrons.
The maximum number of orbits in an atom is seven. These orbits are known as energy levels or electron shells, and electrons can occupy up to seven of them based on their energy level and distance from the nucleus.
The maximum number of unpaired electrons in the s subshell is 2, in the p subshell is 6, in the d subshell is 10, and in the f subshell is 14. This is based on the maximum number of electrons that can occupy each subshell according to the Aufbau principle and the Pauli exclusion principle.
Two electrons can occupy the 2s subshell, and 8 electrons can occupy the 3d subshell.
The penultimate shell can accommodate a maximum of 8 electrons. This is based on the maximum number of electrons that can occupy each subshell within the penultimate shell (s = 2 electrons, p = 6 electrons).
2 electrons is the maximum number for an single orbital.
2 electrons is the maximum number for an single orbital.
6
2
2 electrons are found in the first electron shell.
The superscript 6 in 2p6 refers to the number of electrons that occupy the 2p subshell in an atom. In this case, there are 6 electrons in the 2p orbital.
Hund's Rule states that electrons will occupy orbitals of a subshell singly before any are doubly occupied. This is to maximize the total spin of the electrons in the subshell.
In any shell excluding shell1, there is only 1 s orbital and 1 p orbital. Subshells and the Orbitals are same. Orbital g is known as subshell 5. g orbital is present shell 6. But till today no element is discovered with an electron in g orbital.
of course they can. They have to be of opposite spin and two is the maximum number that can occupy one orbital.