The first energy level (n=1) can hold a maximum of 2 electrons, while the second energy level (n=2) can accommodate up to 8 electrons. This is based on the formula (2n^2), where (n) is the principal quantum number. Therefore, the total capacity for the first two energy levels is 10 electrons.
An atom has multiple energy levels. When an atom has more electrons than it can fit into an energy level, then it puts them into the next higher energy level.
Oh, dude, helium only has two electrons total, so there can't be any in the third energy level. It's like trying to fit a square peg in a round hole - just not gonna happen. So, zero electrons in the third energy level of helium.
If by occupy, you mean what space do they occupy since they are subatomic they can fit in anything. However we don't know if they can go inside black hole but since they are infinitely dense it seems unlikely.
It is all to do with the Aufbau and Pauli exclusion principle. The best way to illustrate is to fill up a bus with single people. They will tend to fill the empty seats first and then start sitting two people to a seat. In the same way due to energy considerations, an orbital can only have a maximum of two spin paired electrons in it. Anymore is energetically unfavorable. The same is true with each energy level. Each one can only hold a certain maximum of electrons. 1 = 2 2 = 8 3 =18 4 = 32 So with iron which has 26 electrons, they need 4 energy levels to fit these electrons in.
Generally, 8 or less electrons may only inhabit the second ring.
The first energy level can hold up to 2 electrons, the second energy level can hold up to 8 electrons, the third energy level can hold up to 18 electrons, and the fourth energy level can hold up to 32 electrons.
An atom has multiple energy levels. When an atom has more electrons than it can fit into an energy level, then it puts them into the next higher energy level.
Electron energy levels are specific regions around an atomic nucleus where electrons are likely to be found. The number of electrons that can fit into each energy level is determined by the formula 2n^2, where n denotes the principal quantum number of the energy level. For example, the first energy level (n=1) can hold a maximum of 2 electrons, the second energy level (n=2) can hold up to 8 electrons, the third energy level (n=3) can hold up to 18 electrons, and so on.
Answer this question… The extra electrons begin to fill the next energy level.
An atom has multiple energy levels. When an atom has more electrons than it can fit into an energy level, then it puts them into the next higher energy level.
2
8 (2s2, 2p6)
Oh, dude, helium only has two electrons total, so there can't be any in the third energy level. It's like trying to fit a square peg in a round hole - just not gonna happen. So, zero electrons in the third energy level of helium.
If by occupy, you mean what space do they occupy since they are subatomic they can fit in anything. However we don't know if they can go inside black hole but since they are infinitely dense it seems unlikely.
2 electrons
It is all to do with the Aufbau and Pauli exclusion principle. The best way to illustrate is to fill up a bus with single people. They will tend to fill the empty seats first and then start sitting two people to a seat. In the same way due to energy considerations, an orbital can only have a maximum of two spin paired electrons in it. Anymore is energetically unfavorable. The same is true with each energy level. Each one can only hold a certain maximum of electrons. 1 = 2 2 = 8 3 =18 4 = 32 So with iron which has 26 electrons, they need 4 energy levels to fit these electrons in.
Generally, 8 or less electrons may only inhabit the second ring.