CsBr is both polar and ionic, but is not covalent.
ICl3 is covalent N2O is covalent LiCl is ionic
H2CO3 is a covalent compound. It is composed of nonmetals, which typically form covalent bonds by sharing electrons.
Covalent; 2 non-metals bonded are covalent; a metal and a non-metal are ionic
The compound formed from cesium and bromine is cesium bromide, with the chemical formula CsBr. It is an ionic compound where cesium contributes a +1 charge and bromine contributes a -1 charge to form a balanced compound.
An ionic compound is composed of metal and a nonmetal. Therefore NBr3 is a covalent compound, because it is made up of two nonmetals.
CsBr is both polar and ionic, but is not covalent.
Yes, CsBr (cesium bromide) is an ionic compound. It is composed of cesium (Cs) and bromine (Br) ions held together by ionic bonds, where Cs loses an electron to become a cation and Br gains an electron to become an anion.
CsBr is both polar and ionic, but is not covalent.
Yes, CsBr is an ionic compound. It is made up of cesium ions (Cs+) and bromide ions (Br-), which are held together by ionic bonds due to the transfer of electrons from cesium to bromine.
CsBr is an ionic compound because it is composed of a metal (Cs) and a nonmetal (Br). Ionic bonds are formed between these types of elements, where electrons are transferred from the metal to the nonmetal. In CsBr, the Cs atom donates an electron to the Br atom, resulting in the formation of Cs+ and Br- ions.
The two main types of chemical bonds are ionic and covalent.
Is CsL ionic or covalent
No, but the bond in sodium chloride is covalent.
Covalent
covalent
It is ionic
Covalent