The level of energy possessed by all electrons in one type of orbital
what are the sublevels in order of increasing energy
The level of energy possessed by all electrons in one type of orbital. -APEX
You can tell the difference between a 2s sub-shell and 2p sub-shell from their energy levels, because a 2p sub-shell is a higher energy level than a 2s sub-shell.
Elements in the second period have two principal energy level. The first energy level has one s subshell. The second energy level has one s subshell and three p subshells.
4f subshell has the highest energy. A f subshell has the highest energy among all the subshells in any shell.
s subshell have energy more than d subshell
The sub-level s of energy that make the o shell is the K-shell.
You can tell the difference between a 2s sub-shell and 2p sub-shell from their energy levels, because a 2p sub-shell is a higher energy level than a 2s sub-shell.
You can tell the difference between 2s sub-shell and 2p sub-shell by checking their energy levels whereby a 2p orbital has a higher energy level compared to a 2s orbital.
Elements in the second period have two principal energy level. The first energy level has one s subshell. The second energy level has one s subshell and three p subshells.
There are two subshells in the second energy level. There is the S subshell, which can hold 2 electrons, and the P subshell, which can hold 6 electrons.
There's no such energy level. n = 3 can hold 18, and n = 4 can hold 32. In terms of l, the i subshell can hold 26, and the j subshell can hold 30.
The maximum number of electrons in a 'D' sublevel is 10
Sub energy pretty much explains itself: It is below energy level
4f subshell has the highest energy. A f subshell has the highest energy among all the subshells in any shell.
s subshell have energy more than d subshell
The sub-level s of energy that make the o shell is the K-shell.
It depends which n since n is the row (period) number. 1st n = 1-s subshell, 1 orbital, and 2 electrons. 2nd n = 2-s subshell with 1 orbital and 2 electrons + 2-p subshell with 3 orbitals and 6 electrons.
The third energy level has three subshells (3s, 3p, and 3d). The total number of electrons that it can house is simply the sum of the number of electrons in these subshells. Since the 3s subshell can hold 2, the 3p can hold 6, and the 3d can hold 10, the third energy level can hold 2 + 6 +10 = 18 electrons.It is important to note, however, that when filling the third energy level, the s subshell of the fourth energy level, 4s, must be filled before the 3d subshell.