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Ah. I know what your trying to figure out. The answers silver not copper. Anyway 5 d orbitals.
s subshell have energy more than d subshell
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 d sublevel contains 5 orbitals
five
the d-sub shell has five 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.
Ah. I know what your trying to figure out. The answers silver not copper. Anyway 5 d orbitals.
3d orbitals do exist and 2d orbitals dont exist because of the pauli exclusion principle which says only 6 electrons can exist in the 2nd shell, and you need at least 7 to get a d subshell
d subshell = 2 p subshell = 6
s subshell have energy more than d subshell
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 d sublevel contains 5 orbitals
There are 5 d orbitals in a given sublevel.
There are 2, the 2s and 2p subshells. The s subshell contains just one orbital and can hold only two electrons (of opposite spin) The p subshell contains 3 orbitals each of which can hold just 2 electrons (of opposite spin) making 6 electrons in all
The 5 orbitals within the 3d subshell have different energies and electrons within the 3d subshell can move up and down these orbitals. The energy transitions within the orbitals of the 3d subshell correspond to the energy of visible light.