Silicon is a mineral and is used to wrap around the metallic elements which creates an interesting effect. This is said to be other worldly technology by some.
All elements (apart from Hydrogen) have 2 electrons in their first energy level.
There are 3 energy levels in Silicon. Which ever row it is in the Periodic Table, that is how many energy levels it has. The structure is 1s2 2s22p63s23p2
1st shell : 2
2nd shell: 8
3rd shell: 4
8 electrons in second energy level
Silicon is in Group 14, and all members of Group 14 have 4 electrons in the outermost energy level, or valence shell (14-10). Also, silicon is in the second column of the p-block on the periodic table. All members of the p-block have a valence shell of ns2np1-6, where n is the outermost, or highest energy level. Since silicon is in the second column of the p-block, and it is in period 3, its electron configuration is [Ne]3s23p2, in which the outermost, or highest energy level, or valence shell is the 3rd energy level, which contains 4 electrons.
There are six electrons are in the second energy level of magneisum. A further two are on the first energy level and the last two are on the third energy level.
Calcium atoms have 8 electrons in the second energy level. However, they are not the valence electrons. The outermost electrons in a calcium atom in the ground state are 2 4s electrons. So calcium atoms in the ground state have 2 valence electrons in the fourth energy level.
well, on the periodic table of elements a chlorine atom has 17 electrons, usually the first level holds up to two electrons and the second level holds up to 8. so if my figuring is correct there should be fifteen electrons on the second energy level.
jhb
eight
Silicon
An atom with seven electrons will have five electrons in the second energy level.
More energy have the electrons in the second level of energy.
Maximum of 8 electrons in second energy level.
A boron atom has three electrons in its second energy level.
In the second energy level, eight electrons are allowed at most.
There are six electrons are in the second energy level of magneisum. A further two are on the first energy level and the last two are on the third energy level.
Silicon is in Group 14, and all members of Group 14 have 4 electrons in the outermost energy level, or valence shell (14-10). Also, silicon is in the second column of the p-block on the periodic table. All members of the p-block have a valence shell of ns2np1-6, where n is the outermost, or highest energy level. Since silicon is in the second column of the p-block, and it is in period 3, its electron configuration is [Ne]3s23p2, in which the outermost, or highest energy level, or valence shell is the 3rd energy level, which contains 4 electrons.
128 electrons could fit in the 8th energy level.
The second energy level of atoms can hold a maximum of 8 electrons.
More energy have the electrons in the second level of energy.