The bonds between calcium and hydroxide in calcium hydroxide are ionic, and the bonds between oxygen and hydrogen are covalent.
The bond between calcium and hydroxyl is ionic.
The bond between oxygen and hydrogen is covalent.
The bond between oxygen and hydrogen is covalent. The bond between Ca2+ and (OH)- is ionic.
The Ca and OH bond is an ionic one (i.e. the Ca2+ 2(OH-)) and the O-H bond is a Polar Covalent bond
Ionic
Calcium cyanide contains both ionic and covalent bonds: There are calcium cations and cyanide anions, and the cyanide anions contain internal covalent bonds, specifically triple bonds between carbon and nitrogen.
Calcium has both ionic and covalent bonds.
The acetate groups are comprised of covalent bonds, but they are ionically bonded with the calcium.
Bonds aren't strictly covalent or ionic - it's a whole grey area. CaOH2 probably has bonds with both covalent and ionic properties.
The hydroxide anions in calcium hydroxide have covalent bonding between oxygen and hydrogen atoms, and these anions are ionically bonded to calcium cations to form the complete compound.
The Oxygen and the Hydrogen atoms are held together by Covalent bonds and the Calcium is held together with Ionic bonds.
The Ca and OH bond is an ionic one (i.e. the Ca2+ 2(OH-)) and the O-H bond is a Polar Covalent bond
Ionic
Calcium has both ionic and covalent bonds.
Calcium cyanide contains both ionic and covalent bonds: There are calcium cations and cyanide anions, and the cyanide anions contain internal covalent bonds, specifically triple bonds between carbon and nitrogen.
The acetate groups are comprised of covalent bonds, but they are ionically bonded with the calcium.
Calcium carbide is formed by ionic bonding.
Neither. No element will form ionic bonds with itself. Since calcium is a metal, its atoms are joined together by metallic bonds.
Ammonium hydroxide (also known as Ammonia, or NH3) has covalent bonding.
No, calcium tends to form ionic bonds when in compounds. In its pure metallic state, it forms metallic bonds.