Germanium is in group 14 and in period 4
The s orbitals are 1S, 2s, 3S and 4S with two electrons in each - therefore 8 in all although only the two - those in the 4S - are valence electrons
Germasnium is in group 4 and is in period 4.
It therefore has s electrons as follows
4s 2
3s 2
2s 2
1s 2
So 8 in all- but only 2 are valence electrons (4s2)
Germanium has 4 valence electrons in its ground state.
Germanium is a group 4 element like carbon and silicon. It will therefore have 4 electrons in its outer-most energy level.
4 valance electrons
four
A germanium atom has 4 valence electrons. Germanium is in Group 14 of the periodic table, so it has 4 electrons in its outermost shell.
In germanium, the number of core electrons is equal to the number of electrons in its inner shells. The electron configuration of germanium is [Ar] 3d10 4s2 4p2, where [Ar] represents the electron configuration of argon. Therefore, germanium has 18 core electrons.
The total number of valence electrons in Boron's ground state is 2
Germanium has an atomic number of 32. Therefore, germanium has 32 electrons.
Germanium has 32 electrons.
A germanium atom has 4 valence electrons. Germanium is in Group 14 of the periodic table, so it has 4 electrons in its outermost shell.
The total number of valence electrons in Boron's ground state is 2
You can tell if an atom has the same valence as carbon by looking at its outermost electron configuration. Carbon has 4 valence electrons, so any atom with 4 electrons in its outer shell, like silicon, would have the same valence as carbon.
Germanium has an atomic number of 32. Therefore, germanium has 32 electrons.
A fluorine atom in the ground state has 7 valence electrons.
4
An atom of aluminum in the ground state has 3 electrons in its valence shell. Aluminum has an electron configuration of 2-8-3, so its valence shell is the third shell, where the last 3 electrons reside.
Germanium is chemically similar to silicon because they are both metalloids belonging to Group 14 of the periodic table. They have similar atomic structures with four valence electrons, allowing them to form covalent bonds in a similar manner. This results in similar chemical properties such as the ability to form tetrahedral structures and exhibit semiconductor behavior.
The element you are referring to is silicon. It is a metalloid with 4 valence electrons.
An atom of fluorine has 9 electrons in total. Electrons are equal to protons when the atom isn't an ion, and the number of protons is also the atomic number of the element, so you just need to know the atomic number to find out the number of electrons or protons.
Take the atomic number then subtract the amount of valence electrons. Example: Number of non valence (inner) electrons in Sulfur: 16 (atomic number) - 6 (valence electrons) = 10 (valence or inner electrons)
Two valence electrons.