Yes.
N-- Because it has less electrons, the proton pull is smaller on each individual electron, holding them closer to the nucleus and making the radius smaller
nitrogen- .70 angstroms (oxygen- .66 angstroms)
What has a larger radii, a sulfur atom or sulfied ion and why
If you take a look at the Periodic Table of Elements, you'll notice that sulfur is directly underneath oxygen. According to trends in the Periodic Table, one knows that the size of the atom of sulfur is larger than that of oxygen because there are more electrons in a higher energy level surrounding the nucleus. The bond between both hydrogen and oxygen and hydrogen and sulfur are covalent. That means that the lone electron around the hydrogen is equally shared between the hydrogen and the sulfur. Simply because sulfur is a larger atom, it will have a larger bond length between anything it bonds with than that if oxygen were to bond with that same atom.
due to small atomic size oxygen atom has high tendency to attract the electrons.
Sulfer. The atomic radius increases as you go down a group.
N-- Because it has less electrons, the proton pull is smaller on each individual electron, holding them closer to the nucleus and making the radius smaller
nitrogen- .70 angstroms (oxygen- .66 angstroms)
This element is tellurium with a covalent atomic radius of 140 pm.
Chlorine will have the smallest atomic radius, bromine the largest.
It is not hydrogen so it must be nitrogen and bromine since it has a higher atomic radius.
Phosphorus has larger ionic radius than sulfur. There is more nuclear attraction in sulfur.
Sulfur.
What has a larger radii, a sulfur atom or sulfied ion and why
If you take a look at the Periodic Table of Elements, you'll notice that sulfur is directly underneath oxygen. According to trends in the Periodic Table, one knows that the size of the atom of sulfur is larger than that of oxygen because there are more electrons in a higher energy level surrounding the nucleus. The bond between both hydrogen and oxygen and hydrogen and sulfur are covalent. That means that the lone electron around the hydrogen is equally shared between the hydrogen and the sulfur. Simply because sulfur is a larger atom, it will have a larger bond length between anything it bonds with than that if oxygen were to bond with that same atom.
Sulfur is larger than oxygen because it has more protons in its nucleus and more electrons in the orbital shells.
Atomic radii become larger as you go from top to bottom of the periodic chart, but they get smaller as you go from left to right. Therefore, the elements with the smallest radii are in the upper right hand corner. Of S, Al, Na, and Ba, sulfur is the closest to the upper right corner and has the smallest radius of those elements.