2
I think it's Potassium Chloride, but I'm not aure
A covalent bond holds the atoms of a chlorine molecule together. In this bond, the atoms share electrons to achieve a stable electron configuration.
A chlorine molecule would form a covalent bond by sharing electrons between the two chlorine atoms. Neon atoms, on the other hand, are inert and do not typically form bonds with other atoms since they have a full outer electron shell.
if you see you can make 3 elements are in each compound of this molecule. I THINK!
Chlorine is soluable, potassium however I think not. KClO3 is an ionic compound though.
Just one. Potassium has one valence electron which it would give to chlorine, who could only take one before it was full and wouldn't take another.
A compound containing potassium and oxygen atoms would have a formula of K2O, and would be named potassium oxide. This is a binary ionic compound.
Two; one sodium (Na) and one chlorine (Cl). Curious to think that an explosive metal and a poisonous gas could combine to be so essential to life on Earth.
You think probable to atoms of sodium and chlorine.
I think it's Potassium Chloride, but I'm not aure
A covalent bond holds the atoms of a chlorine molecule together. In this bond, the atoms share electrons to achieve a stable electron configuration.
If you think to aluminium potassium sulfate, AlK(SO4)2.12H2O and considering the hydrate: 48 atoms.
You think to fusion.
If you think to sodium chloride the chemical formula is NaCl and contain atoms of sodium and chlorine.
A chlorine molecule would form a covalent bond by sharing electrons between the two chlorine atoms. Neon atoms, on the other hand, are inert and do not typically form bonds with other atoms since they have a full outer electron shell.
if you see you can make 3 elements are in each compound of this molecule. I THINK!
The transfer of electrons from sodium atoms to chlorine atoms results in the formation of sodium cations and chloride anions. This creates an ionic bond between the two atoms, forming sodium chloride, or table salt.