The general formula for the number of electrons in shell n is 2*(n**2).
8 (just in the second shell) but if you're counting all of the electrons, including the first shell, then there are 10 electrons all together.
Eight Electrons are the maximum.
use formula 2n2 for max e- in an energy level(quantum shell)
2nd ==> n=2
2 (22) = 8
There will be a maximum of 6 electrons in the 'L' shell or second shell.
Most of the time, it's 8.
8
8.
The maximum number is 8 electrons in the second shell.
The maximum number of electrons in the second principle energy level (n=2) is 8. This can be determined from 2(n^2) which for n=2 would be 2 x 4 = 8. It can also be seen by writing the electron configuration for n=2 which would be 2s2 2p6 for a total of 8 electrons.
8
The type of orbital the electron is in.
First orbital can be occupied by a total of 2 electrons and the second orbital can be occupied by a total of 8 electrons. 1s^2 2s^2 2p^6 ( what element is this ? )
The maximum number is 8 electrons in the second shell.
8 (just in the second shell) but if you're counting all of the electrons, including the first shell, then there are 10 electrons all together. Eight Electrons are the maximum.
8 electrons maximum
Second shell has a maximum of 8 electrons.
The maximum number of electrons in the second principle energy level (n=2) is 8. This can be determined from 2(n^2) which for n=2 would be 2 x 4 = 8. It can also be seen by writing the electron configuration for n=2 which would be 2s2 2p6 for a total of 8 electrons.
The maximum number of electrons in the second principle energy level (n=2) is 8. This can be determined from 2(n^2) which for n=2 would be 2 x 4 = 8. It can also be seen by writing the electron configuration for n=2 which would be 2s2 2p6 for a total of 8 electrons.
8 electrons
8
8
8 electrons maximum
If you are saying about L-shell then it has the capacity of 8 electrons. The l-shell consists of 2s and 2p orbitals which are capable of holding 2 and 6 electrons respectively.
8