2n2 = 2x42 = 32 electrons
32 electrons on the fourth shell of radon.
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 fourth energy level (n=4) can hold up to 32 electrons, distributed across its sublevels (s, p, d, f).
The maximum number of electrons in any energy level is given by 2n2. Any more would be energetically unfavorable. So in the fourth is would be 2 x 42 = 32 4s2 4p6 4d10 4f14 So a total of 2+6+10+14 = 32
1st energy level- 2 electrons 2nd energy level- 8 electrons 3rd energy level- 18 electrons To calculate the number of electrons other energy levels can hold, use the formula 2n^2. For example, to calculate the number of electrons the fourth level can hold, the equation would be 2(4)^2. This means that the fourth energy can hold 32 electrons. Same process for other levels.
There are 2 electrons in the fourth energy level of a calcium atom. Calcium has an atomic number of 20, which means it has 20 electrons distributed in different energy levels, with 2 electrons in the first energy level, 8 electrons in the second energy level, 8 electrons in the third energy level, and 2 electrons in the fourth energy level.
The fourth energy level can hold up to thirty-two (32) electrons.
32 electrons on the fourth shell of radon.
32 electrons is the maximum number that can simultaneously maintain the fourth energy level in an atom's electron shell. The equation used to find this number is: 2 x n2 in which "n" is the energy level being referred too. To find the maximum electron count for the fourth energy level we insert the number four in for "n" then solve: 2 x (4)2 = 32 electrons
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.
32
The fourth energy level (n=4) can hold up to 32 electrons, distributed across its sublevels (s, p, d, f).
The fourth energy level can hold a maximum of 32 electrons. This level consists of 4 sublevels (s, p, d, f), which can hold a total of 32 electrons when completely filled according to the Aufbau principle.
1s = 2 + 2s & p = 8 + 3s & p & d = 18 + 4s & p & d & f = 32 { close to binary } + = Total is 60 electrons.
The highest occupied energy level in potassium is the fourth energy level because potassium has 19 electrons, occupying the first three energy levels (with 2, 8, and 8 electrons, respectively) and the remaining electron is in the fourth energy level.
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.
The fourth energy level can hold up to thirty-two (32) electrons.