Because each atom has more eletons, so it needs more space.
silican m8. Judgin on my years of research I have finally come to the conclusion that silican is larger.
Strontium is the smallest atom among magnesium, calcium, barium, and strontium. This is because as you move down a group in the periodic table, atomic size increases due to the addition of more electron shells. Strontium is located lowest in the group 2 elements, so it has the smallest atomic size among the four elements listed.
Sulfur is generally less reactive than nitrogen because sulfur forms weaker bonds and has a larger atomic radius. Nitrogen is more reactive due to its ability to form stable triple bonds and its smaller atomic size, which allows for stronger interactions with other elements.
Oxygen is more electronegative than sulfur because it has a greater nuclear charge and a smaller atomic size, leading to a stronger pull on the shared electrons in a covalent bond. Additionally, oxygen has a higher electronegativity value on the periodic table, indicating its greater ability to attract electrons.
The approximate size of a sodium atom is about 0.186 nanometers (nm) in radius. Sodium is a relatively large atom compared to hydrogen or helium because it has more electrons and protons, leading to a larger atomic radius.
If by Be you mean beryllium then yes.
Sodium > Aluminum > Chlorine > Sulfur. Atomic size generally increases as you move down a group on the periodic table and decreases as you move across a period from left to right. Sodium is in the same period as chlorine but is a metal, so it has a larger atomic size. Aluminum is in the same period as sulfur but is a metal, so it has a larger atomic size. Chlorine is a non-metal and smaller than both aluminum and sodium. Sulfur is a non-metal and the smallest among the four elements listed.
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.
Selenium dioxide has stronger intermolecular forces than sulfur dioxide due to its larger atomic size, making it a solid at room temperature. Sulfur dioxide is a gas because it has weaker intermolecular forces due to its smaller atomic size.
silican m8. Judgin on my years of research I have finally come to the conclusion that silican is larger.
chlorine is the smallest in size. The order of atomic size is chlorine < sulphur < phosphorus < silicon.
Potassium is larger than magnesium because potassium has one more electron shell than magnesium, leading to a larger atomic size. Additionally, the increase in nuclear charge from magnesium to potassium is not enough to offset the added electron shell, resulting in a larger atomic radius for potassium.
In the third period of the periodic table, phosphorus has the smallest atomic size. Atomic size generally decreases across a period from left to right due to increasing nuclear charge, which pulls electrons closer to the nucleus. As sodium is on the far left and phosphorus is further to the right, phosphorus exhibits a smaller atomic radius compared to sodium, magnesium, and aluminum.
Sulfur has a larger atomic size and lower electronegativity compared to oxygen. Additionally, sulfur forms compounds with a wider variety of oxidation states than oxygen.
Strontium is the smallest atom among magnesium, calcium, barium, and strontium. This is because as you move down a group in the periodic table, atomic size increases due to the addition of more electron shells. Strontium is located lowest in the group 2 elements, so it has the smallest atomic size among the four elements listed.
Among the elements Be (beryllium), Mg (magnesium), Sr (strontium), and Ca (calcium), beryllium (Be) is the smallest in terms of atomic size. This is because atomic size increases down a group in the periodic table due to the addition of electron shells. Since beryllium is at the top of Group 2, it has the least number of electron shells and therefore a smaller atomic radius compared to magnesium, calcium, and strontium.
Sulfur is generally less reactive than nitrogen because sulfur forms weaker bonds and has a larger atomic radius. Nitrogen is more reactive due to its ability to form stable triple bonds and its smaller atomic size, which allows for stronger interactions with other elements.