Gallium is the element has three electrons in energy level n = 4.
Three (3) electrons in this energy level.
A boron atom has three electrons in its second energy level.
The first energy level can contain 2 electrons. The second energy level can contain 8 electrons. The third energy level can contain 18 electrons.
Each aluminum isotope has 13 electrons. In accordance with the Aufbau Principle those electrons will fill: 1s2, 2s2, 2p6, 3s2, 3p1. The shortcut notation is: [Ne] 3s2, 3p1.
The third principal energy level can hold a maximum of 18 electrons. Two are in the s orbital, 6 in the three p orbitals, and 10 in the five d orbitals.
nobel gases has few electron in the outer energy level
Three (3) electrons in this energy level.
You can determine the number of electrons in the outer level by the goup numbers. Like aluminum (atomic number 13) will have three in the outer level. There will be two in the first inner level. in the second level there will be eight. and in the last three.
A boron atom has three electrons in its second energy level.
What has three energy levels and six valence electrons
What has three energy levels and six valence electrons
8. level one has 2 level two has 8 level three has 18 level four has 32 level five has 50 level six has 72
Any group 5 element
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The element calcium is in the fourth energy level and second group of the periodic table. This put it in the 's' orbital group with two valence electrons.
The first energy level can contain 2 electrons. The second energy level can contain 8 electrons. The third energy level can contain 18 electrons.
Assuming K stands for potassium, an element with 19 electrons, the electron configuration is as follows: 1s2 2s2 2p6 3s13p64s1 The electron configuration shows the orbitals is order of energy level. The 4s orbital being at the highest energy level and the 1s orbital being at the lowest energy level. As 2px, 2py and 2pz exist, there are three 2p orbitals that occur at the p level, allowing the element to carry 6 electrons, 2 in each orbital. There is a specific order in listing the orbitals