Lithium bromide is held together by an ionic bond. We know that lithium is a Group 1 Alkali Metal, and bromine is a Group 17 Halogen. These two groups always form ionic bonds when they get together. You can bet the house on it.
Bromine (Br) is a halogen, which is a member of the Group 7 elements on the Periodic Table. They are strongly reactive and want to "take" an electron rather than simply "share" it. The "taking" of an electron forms an ionic bond. And if you guessed that "sharing" an electron is a covalent bond, you'd be correct.
covalent covalent
Bromine is a covalently bonded molecule.
Oxygen and bromine form a covalent bond.
The bonds are polar covalent.
Strontium bromide is an ionic compound.
ionic lithium loses its one valence electron, becoming a positive ion iodine gains a valence electron (giving it all eight valence electrons), becoming a negative ion
Ionic bond. The metal (iron) gives up electrons to the non-metal (bromine.)
No, it is ionic
The bond is covalent. If the bond is made by transferring electrons then it is an ionic bond, but if they are sharing the it is covalent.
Halometallic compounds normally involve ionic bonds; lithium bromide is no different.
Lithium oxide is an ionic lattice.
its ionic
Barium bromide is ionic.
No, Ionic
Strontium bromide is an ionic compound.
Lithium bromide is an ionic compound.
Ionic. But it does have covalent bonding characteristics aswell
Ionic because it is made of a metal and a non-metal bonded.
Lithium chloride is an ionic compound and has no covalent bonds.
An ionic covalent bond forms when a metal bonds to a non-metal that is bonded to another non-metal. One such as this would be LiOH. The Oxygen and Hydrogen form a covalent bond and the Lithium to the Hydroxide forms an ionic bond.
In lithium acetate, there are ionic bonds between positive lithium ions and negative acetate ions, and within the acetate ions themselves, there are covalent bonds between carbon and oxygen and hydrogen.