2
Atomic number of sulfur = Number of protons = Number of electrons = 16
'S' look for it on the periodic table for full name.
The answer is two.Third shell of sulfur is occupied by 6 electrons:3s2 3px2 3py 3pzof which the first 4 electrons (in 3s2 3px2) are paired (superscipted 2 means 2electrons per sublevel)and the other 2 electrons are unpaired (3py 3pz, no superscript means 1 electron per sublevel).
There are 16 protons, 16 neutrons and 16 electrons in a Sulfur atom. *note it's atomic number- this is the number of protons in an atom of an element. There must be the same number of electrons to balance the charge. The atomic weight minus the number of protons gives you the number of neutrons
Sulfur, with an atomic number of 16, can form a maximum of 2 covalent bonds. This is because sulfur has 6 valence electrons and can share these electrons with other atoms to complete its octet, leading to the formation of 2 covalent bonds.
There are 2 unpaired electrons in a sulfur atom with an atomic number of 16. Sulfur has 6 electrons in its outer shell, and 4 of them are used to form covalent bonds, leaving 2 unpaired electrons.
There are 2 unpaired electrons in a sulfur atom with atomic number 16. This is because sulfur has a total of 6 electron in its outermost shell, with 4 paired electrons and 2 unpaired electrons in its electron configuration.
Atomic number of sulfur = Number of protons = Number of electrons = 16
Zero. Sulfur has six valence electrons, all of which pair up into three orbitals.
16, the same as the atomic number of sulfur.
Atomic number of sulfur is 16. So there are 16 protons and 16 electrons
Sulfur is diamagnetic because all of its electrons are paired in its atomic and molecular orbitals. This results in a cancellation of magnetic moments, making sulfur weakly repelled by magnetic fields.
'S' look for it on the periodic table for full name.
Sulfur is non-magnetic because it does not have unpaired electrons in its electron configuration. In order to exhibit magnetic properties, a material must have unpaired electrons that can align in a magnetic field and create a magnetic moment. Since sulfur does not have unpaired electrons, it remains non-magnetic.
Sulfur is paramagnetic in the vapor state because it has unpaired electrons in its atomic or molecular orbitals due to its electronic configuration. These unpaired electrons are free to align in the presence of an external magnetic field, leading to the paramagnetic behavior observed.
Sulfur has 16 protons and 16 electrons. The number of protons determines its atomic number and identity as sulfur, while the number of electrons balances the charge with the protons, making it electrically neutral.
Electrons are equal to protons in a neutral element. Using the atomic number to find sulfur's number of proton's one finds that sulfur has 16 protons. Thus, sulfur in its elemental form must also have 16 electrons.