There are three unpaired electrons in an arsenic atom. Arsenic has five valence electrons, with two paired and three unpaired electrons.
Rhodium has one unpaired electron.
Molybdenum has one unpaired electron.
Germanium has 4 unpaired electrons.
Silicon has 0 unpaired electrons. It is in group 14 of the periodic table and has 4 valence electrons, which will form covalent bonds, leaving no unpaired electrons.
Lutetium (Lu) has no unpaired electrons because it is a transition metal and its electron configuration ends in a fully-filled d subshell.
There are three unpaired electrons in an arsenic atom. Arsenic has five valence electrons, with two paired and three unpaired electrons.
There are no unpaired electrons in strontium.
Rhodium has one unpaired electron.
Phosphorus has three unpaired electrons in its ground state.
Molybdenum has one unpaired electron.
Aluminum has three unpaired electrons.
Germanium has 4 unpaired electrons.
5 unpaired electrons There are 5 unpaired electrons in the Fe3+ ion. The reason for this is that Iron has the electron configuration Ar3d5.
Silicon has 0 unpaired electrons. It is in group 14 of the periodic table and has 4 valence electrons, which will form covalent bonds, leaving no unpaired electrons.
Titanium (Ti) has four unpaired electrons.
Xenon has eight unpaired electrons.