Since the further right you go on the Periodic Table, the smaller it gets due to the protons and electrons attracting each other to become more dense. From that, since potassium is as far as it can go on the left and selenium is as far over on the right, it's larger than potassium from containing more electrons.
The atomic radius of sulfur is approximately 100 picometers (pm).
Yes, sulfur has a larger atomic radius than oxygen. This is because sulfur has more electron shells and therefore a greater distance between the nucleus and the outermost electrons, leading to a larger atomic radius.
Sulfur has a larger atomic radius than magnesium. This is because as you move down a group in the periodic table, atomic radius increases due to the addition of more electron shells. Magnesium is higher up in the periodic table than sulfur, so it has a smaller atomic radius.
Silicon is larger than sulfur. Silicon has a larger atomic radius and a higher atomic number than sulfur, leading to a larger size overall.
The atomic radius of sulfur (S) is larger than that of phosphorus (P) on the periodic table.
No, sulfur has a greater atomic radius than oxygen. This is because sulfur has more electron shells than oxygen, leading to a larger atomic radius.
The atomic radius of sulfur is approximately 100 picometers (pm).
Among bromine, sulfur, chlorine, and selenium, chlorine has the smallest atomic radius. This is because atomic radius decreases as you move from left to right across a period on the periodic table. Chlorine is located on the right side of the periodic table in the 17th group, which indicates smaller atomic radius.
Yes, sulfur has a larger atomic radius than oxygen. This is because sulfur has more electron shells and therefore a greater distance between the nucleus and the outermost electrons, leading to a larger atomic radius.
Sulfur has the largest atomic radius among sodium, aluminum, silicon, and sulfur. This is because atomic radius generally increases as you move down a group in the periodic table, and sulfur is located further down the group compared to the other elements listed.
Sulfur has a larger atomic radius than oxygen because sulfur has more electron shells than oxygen. The additional electron shells in sulfur result in a greater distance between the nucleus and the outermost electrons, leading to a larger atomic radius.
Sodium has a larger atomic radius than sulfur. This is because atomic radius generally decreases as you move from left to right across a period in the periodic table, and sodium is located in the leftmost group while sulfur is farther to the right.
Sulfur has a larger atomic radius than magnesium. This is because as you move down a group in the periodic table, atomic radius increases due to the addition of more electron shells. Magnesium is higher up in the periodic table than sulfur, so it has a smaller atomic radius.
The atomic radius of sulfur is less than sodium because sulfur has more protons in its nucleus, leading to a stronger attraction to its electrons, making the atomic size smaller. Sodium has fewer protons and a larger atomic radius due to weaker attraction between its nucleus and electrons.
The atomic radius of sulfur is larger than that of chlorine because sulfur has more electron shells, leading to a greater distance between the nucleus and the outermost electrons. Chlorine has a smaller atomic radius due to its fewer electron shells.
Lithium has the smallest atomic radius among the elements listed.
This element is tellurium with a covalent atomic radius of 140 pm.