The atomic number for sulfur is 16. That means that its electron configuration is 1s2 2s2 2p6 3s2 3p4. This can be shortened to [Ne] 3s2 3p4, which shows you that 3s2 3p4 is how sulfur's electron configuration ends.
halogens
The elements with the electron configurations that end in ns 2 and np 5 are halogens, group VII A elements.
The elements with the electron configurations that end in ns 2 and np 5 are halogens, group VII A elements.
group 13 or IIIA
what column of the periodic table contains elements whose electron configurations end with d4
The electron configuration for sulfur end with 3p4.
halogens
The elements with the electron configurations that end in ns 2 and np 5 are halogens, group VII A elements.
The elements with the electron configurations that end in ns 2 and np 5 are halogens, group VII A elements.
group 13 or IIIA
what column of the periodic table contains elements whose electron configurations end with d4
Chapter six review? lol same here answer is Ne and Ar are found in group 8A, and there electron configuration both end with a full p orbital Ne(2p6) Ar(3p6)
All elements in group 1 have 1 valence electron.
Your question is incoherent. If you would like to know why the south pole of a magnet is the south pole, or what you can observe if you look at a magnetic south pole, it has to do with electron configurations in atoms, and the alignment of atoms within the metal; this is not something that you can see with the naked eye. Magnetism begins on the sub-atomic level, with the spin of electrons.
It will create sulfur oxides and harm living things.
Sulfur is derived from the Latin word sulpur, which was Hellenizedto sulphur. The spelling sulfur appears toward the end of the Classical period.
Electron User ended in 1990.