im pretty sure
Yes, lithium (Li) and calcium (Ca) can form ionic compounds. Lithium has a +1 charge, and calcium has a +2 charge, so they can combine to form compounds like lithium chloride (LiCl) or calcium fluoride (CaF2) through ionic bonding.
No
Ionic bonding---with such different electronegativities it would be hard for lithium and fluorine to share electrons in a covalent bond. It is far more energetically favorable for the lithium atom to transfer an electron to fluorine to form Li+ and F- and then have those two hook up to form an ionic bond.
"Tellurium oxygen" is not a proper chemical name. Lithium chloride has predominantly ionic bonding.
Lithium typically does not form anions when bonding with other elements. Instead, it tends to lose one electron to form a cation (Li⁺) due to its position as an alkali metal in Group 1 of the periodic table. This cation formation allows lithium to bond with anions from other elements, such as halides or oxides, in ionic compounds.
An element that forms an ionic compound when it reacts with lithium is fluorine. Fluorine gains an electron to form the F^- ion, which then attracts the Li^+ ion from lithium to form the ionic compound lithium fluoride (LiF).
No, lithium hydride does not have a covalent bond. It is an ionic compound where lithium donates its electron to hydrogen, resulting in the formation of Li+ and H- ions, which are held together by ionic bonds.
Yes, chlorine and lithium form an ionic compound called lithium chloride, which consists of lithium cations and chloride anions held together by ionic bonds.
Lithium combines with chlorine to form lithium chloride which is an ionic compound.
Yes, lithium and phosphate can form an ionic bond. Lithium, a metal, can donate its electron to phosphate, a non-metal, leading to the formation of an ionic compound.
Aluminum and lithium are both metals and will not form any ionic compounds together.
Ionic bonding occurs in LiF, where lithium (Li) transfers an electron to fluorine (F) to form Li+ and F- ions, which are then held together by electrostatic forces of attraction.