The seventh electron shell.
As n increases, the energy increases. Therefore, electron in the shell of n=100 will have highest energy. But the fact is that there isn't any shell with n=100. Also, n can have values starting from 1 and thus n=0 is not possible as well.
Type your answer here... Electron configuration of uranium: [Rn]5f36d17s2 Electrons per shell in uranium: 2,8,18,32,21,9,2
The total number of electrons in the outer shell of uranium is 2 electrons. Uranium has an atomic number of 92, which means it has 92 electrons. The electron configuration for uranium is [Rn] 5f3 6d1 7s2, so the electrons in the outermost shell are the 7s2 electrons.
This electron shell is near the atomic nucleus.
Helium (He) has the highest ionization energy, then Neon (Ne) Ionization energy increases as you go across a period from left to right. Ionization energy decreases as you go down a group. Therefore, elements in the upper right of the periodic table have the highest ionization energy.
No, the farthest electrons are at the highest energy level.No, the farthest electrons are at the highest energy level.No, the farthest electrons are at the highest energy level.No, the farthest electrons are at the highest energy level.
As n increases, the energy increases. Therefore, electron in the shell of n=100 will have highest energy. But the fact is that there isn't any shell with n=100. Also, n can have values starting from 1 and thus n=0 is not possible as well.
Type your answer here... Electron configuration of uranium: [Rn]5f36d17s2 Electrons per shell in uranium: 2,8,18,32,21,9,2
Electrons in the outermost electron shell have the most energy in an atom. The energy of an electron increases as it moves further away from the nucleus. Electrons in the innermost shell have the least energy, while electrons in the nucleus have the highest energy due to their proximity to the protons.
The largest Bohr orbit in a uranium atom is the outermost electron orbit, also known as the valence shell. Uranium has 92 electrons, so the valence shell would be the 7th energy level (n=7) as per the Bohr model.
krypton because it is an inert/noble gas, which means it has a complete outer shell and takes a lot of energy to remove an electron.
The highest energy electron in a gallium atom would be found in the outermost shell, which is the fourth shell (n=4). The quantum number for this electron would be n=4, l=3, m_l=-3, m_s= +1/2.
The valence electron shell of noble gases is full.
A valence electron is one that occupies the highest energy level for any electron in a particular neutral atom. (There may be more than one such electron in a single atom.) It is an electron in the outermost shell of the atom.
electrons in the first electron shell have the lowest possible potential energy because YOUR MOM DROPPED U ON YOUR HEAD WHEN U WERE A BABY
The principal quantum number for the highest energy electron in carbon would be 2. It is easy to spot this, since carbon exists in row 2 of the period table. The row in which an element resides always shows the highest value of n, or the principal quantum number, that an electron can reside in.
in the third shell, an electron has more energy and is further from the nucleus