2n2 = 2(3)2 = 18
n = principal quantum number
1s orbital 3P, 5d, and 7f in discovered elements
The maximum number of electrons with principal quantum number 4 and angular momentum quantum number 0 would be 2 electrons. This is because for each energy level (n), there can only be one orbital (l=0) present, and each orbital can hold a maximum of 2 electrons (with opposite spins, as per the Pauli exclusion principle).
The maximal number is 98.
3
The fourth outer energy level of an atom can contain a maximum of 32 electrons. This is because each energy level can hold a maximum of 2n^2 electrons, where n is the principal quantum number of the energy level. In this case, the fourth energy level has a principal quantum number of 4, so it can hold 2(4^2) = 32 electrons.
8 electrons maximum
The maximum number of electrons that can be accommodated in the fourth principal energy level (n=4) is 32. This is because the formula 2n^2 gives the maximum number of electrons that can occupy a particular energy level. So, for n=4, the maximum number of electrons is 2 * 4^2 = 32.
1s orbital 3P, 5d, and 7f in discovered elements
In the third principal quantum number (n=3), there are a maximum of 18 electrons that can be accommodated in different sublevels within that energy level (s, p, d).
The maximum number of electrons with principal quantum number 4 and angular momentum quantum number 0 would be 2 electrons. This is because for each energy level (n), there can only be one orbital (l=0) present, and each orbital can hold a maximum of 2 electrons (with opposite spins, as per the Pauli exclusion principle).
3
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The maximal number is 98.
The second energy level can hold a maximum of 8 electrons. This is based on the formula 2n^2, where n is the principal quantum number representing the energy level.
The 4th energy level can hold a maximum of 32 electrons. This level can accommodate 2n^2 electrons, where n is the principal quantum number (in this case, n=4).
The fourth outer energy level of an atom can contain a maximum of 32 electrons. This is because each energy level can hold a maximum of 2n^2 electrons, where n is the principal quantum number of the energy level. In this case, the fourth energy level has a principal quantum number of 4, so it can hold 2(4^2) = 32 electrons.
The maximum number of electrons that can be held in an energy level is given by the 2n^2 rule, where n is the principal quantum number of the energy level. So, for example, the first energy level (n=1) can hold a maximum of 2 electrons, the second energy level (n=2) can hold a maximum of 8 electrons, and so on.