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.
7
3f
An individual 3d orbital can hold only 2 electrons There are five 3d orbitals each of which can hold a maximum of two, making a maximum in the 3d subshell of 10 electrons.
The shape of the electron cloud is determined by the secondary quantum number. The first is n, or the energy level, the second is the sublevel, the third is the specific cloud, and the fourth is the spin.
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.
The magnetic quantum number, ml, is determined by first knowing the subshell, or angular momentum quantum number (l). The s subshell (l=0) has one orbital: ml=0 The p subshell (l=1) has three orbitals: ml=-1, 0, +1 The d subshell (l=2) has five orbitals: ml=-2, -1, 0, +1, +2 A more generic formula is: ml = -l to +l
If the question is an attempt to ask "How many orbitals are there with principal quantum number n = 2", then 4 orbitals which can hold a total of 8 electrons.
7
d subshell = 2 p subshell = 6
The Speed Is determined by the number of electrons on that shell.
3f
The magnetic quantum number ml depends on the orbital angular momentum (azimuthal) quantum number, l, which in turn depends on the principal quantum number, n. The orbital angular momentum (azimuthal) quantum number, l, runs from 0 to (n-1) where n is the principal quantum number. l= 0 is an s orbital, l= 1 is a p subshell, l= 2 is a d subshell, l=3 is an f subshell. The magnetic quantum number, ml, runs from -l to +l (sorry this font is rubbish the letter l looks like a 1) so for an f orbital the values are -3. -2, -1, 0, +1, +2, +3, so 7 f orbitals in total. ml "defines " the shape of the orbital and the number within the subshell.
the total number of subshell for a sodium atom is 4.
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.
An individual 3d orbital can hold only 2 electrons There are five 3d orbitals each of which can hold a maximum of two, making a maximum in the 3d subshell of 10 electrons.
One orbital - 6s which can hold 2 electrons.