No. At room temperature sulfur forms a ring-shaped eight-atom molecule.
Sulfur is not monoatomic. In its elemental form, sulfur exists as S8 molecules, meaning 8 sulfur atoms bonded together.
No, sulfur is not a monoatomic element. It exists naturally as S8 molecules, which means it consists of eight sulfur atoms bonded together.
Sodium is a monoatomic molecule, meaning it exists as single atoms in its elemental form. Sodium does not naturally form diatomic molecules like some other elements such as oxygen or nitrogen.
Both sulfur and sulfur dioxide molecules contain atoms of sulfur. However, sulfur is a diatomic molecule (S2) while sulfur dioxide is a triatomic molecule (SO2), consisting of one sulfur atom and two oxygen atoms. Additionally, both molecules have a distinct sulfur smell.
The Latin word for sulfur is "sulfur" or "sulphur".
BaSO4 is polar because of the polar bonds between Barium and sulfur is polar so is the sulfur and oxygen bond. They do not cancel each other out which results in BaSO4 being Polar Hope this helps
The most common mono-atomic sulfur ion is its anion with valence 2 and charge -2.
No, sulfur is not a monoatomic element. It exists naturally as S8 molecules, which means it consists of eight sulfur atoms bonded together.
Hydronium is a polyatomic cation.
Copper is a monoatomic chemical element.
No, sodium is an element that exists as single atoms and not as molecules. Sodium is a monoatomic element because it consists of single atoms.
Argon is a monoatomic gas, meaning it exists as individual atoms in its natural state.
yes they exsist as monoatomic molecule in vapour state
No, its monoatomic
Helium is monoatomic.
Yes
Monoatomic molecules are molecules composed of single atoms, such as noble gases like helium, neon, and argon. These molecules do not form chemical bonds with other atoms, as they are stable in their isolated state. They tend to exist as gases at room temperature due to their weak intermolecular forces.
A monoatomic chlorine ion has a valence of -1 because it gains one electron to achieve a stable electron configuration of a noble gas.