The number of protons in an atom is equal to the number of electrons in the atom. Therefore, the total number of electrons in an atom can be found by determining the atom's proton number. For example, the proton number of oxygen is eight. Thus, an oxygen atom has eight protons and eight electrons.
2.
1s2
2s2 2p6
Which is th electronic configuration of Neon.
10 electrons need 8 shells
1s2, 2s2,2p6.
10 electrons need 2 shells
8
The outer electrons, also known as the Valence electrons
one valence electron
The expected number of valence electrons for a group 3 A element is 5 number of valence electrons.
5 valence electrons.
The valence electrons of an element are mainly what determine an element's properties.
The outer electrons, also known as the Valence electrons
Yes. Only the valence shell will interact with other atoms. This is how different elements are different from eachother. The electrons under the valence shell are never touched. Yes. Only the valence shell will interact with other atoms. This is how different elements are different from eachother. The electrons under the valence shell are never touched.
They have different numbers of valence electrons.
one valence electron
Boron has 3 valence electrons.Boron has 3 valence electrons.
The Group Number of the Element you're working on determines the number of Valence Electrons. Valence electrons are electrons in the outside energy level.
The expected number of valence electrons for a group 3 A element is 5 number of valence electrons.
Valence electrons are the electrons on the outermost energy shell of an element.
5 valence electrons.
The valence electrons of an element are mainly what determine an element's properties.
Neon has 0 valence electrons so it is not possible to have an element with fewer valence electrons. There can, therefore, be no such element.
valence electrons are on the outer shell. they're the ones that will interact with other molecules as bonds are formed. electrons on inner shells don't interact with other molecules. they keep to themselves.