YES!!!
CaBr2 = Ca^(2+) + 2Br^(-)
Carbon tetrachloride and calcium bromide would have an ionic bond. Carbon tetrachloride is a covalent compound with no net charge, while calcium bromide is an ionic compound with a metal and nonmetal. The difference in electronegativity between calcium and bromine results in the transfer of electrons, creating an ionic bond.
The ionic compound calcium bromide is CaBr2.
The answer to this question is Calcium (Ca) Br2 (-ide) Bromide. Put them together, you get Calcium Bromide.
No, this is an ionic compound, as calcium is a metal and bromine is a non-metal. A good rule to remember for the future is that elements to the left of the "staircase" on the Periodic Table are metals (except for Hydrogen, a non-metal)and elements to the right are non-metals, while those bordering the "staircase" are metalloids. A metal will always bond with a non-metal in an ionic bond. Covalent bonds occur when two non-metals "share" electrons. You can also judge a compound's bonding type based on its electronegativity difference, but judging by the simplicity of the question that has just been asked, you will likely learn that at a later point of your education in chemistry anyway, and an explanation would be redundant.
Calcium and bromine form an ionic bond, resulting in the compound calcium bromide (CaBr2). Calcium, being a metal, donates electrons to bromine, a nonmetal, resulting in the transfer of electrons and the creation of a stable compound.
Carbon tetrachloride and calcium bromide would have an ionic bond. Carbon tetrachloride is a covalent compound with no net charge, while calcium bromide is an ionic compound with a metal and nonmetal. The difference in electronegativity between calcium and bromine results in the transfer of electrons, creating an ionic bond.
The ionic compound calcium bromide is CaBr2.
The answer to this question is Calcium (Ca) Br2 (-ide) Bromide. Put them together, you get Calcium Bromide.
No, this is an ionic compound, as calcium is a metal and bromine is a non-metal. A good rule to remember for the future is that elements to the left of the "staircase" on the Periodic Table are metals (except for Hydrogen, a non-metal)and elements to the right are non-metals, while those bordering the "staircase" are metalloids. A metal will always bond with a non-metal in an ionic bond. Covalent bonds occur when two non-metals "share" electrons. You can also judge a compound's bonding type based on its electronegativity difference, but judging by the simplicity of the question that has just been asked, you will likely learn that at a later point of your education in chemistry anyway, and an explanation would be redundant.
Answer: Yes Reason: Ionic bonds are found between metal and non-metal ions. Bromide is a non-metal and Calcium is a metal. An ionic bond is a very strong force of attraction between positive and negative ions. Ionic bonds ALWAYS involve transfer of electrons. You will probably find more in-depth answers but this is just cut short. Having said that the question was a yes or no answer.
Calcium and bromine form an ionic bond, resulting in the compound calcium bromide (CaBr2). Calcium, being a metal, donates electrons to bromine, a nonmetal, resulting in the transfer of electrons and the creation of a stable compound.
Silver bromide has an ionic bond between silver and bromide ions.
The ionic formula for calcium bromide is CaBr2. This is because calcium (Ca) has a 2+ charge and bromide (Br) has a 1- charge, so it takes two bromide ions to balance the charge of one calcium ion.
Calcium bromide is the ionic compound represented by CaBr2. It consists of calcium (Ca) cations and bromide (Br) anions, which form a lattice structure in a solid state.
Potassium bromide has ionic bond.
Ionic bond. The metal (iron) gives up electrons to the non-metal (bromine.)
Bromide means Br- so it forms only ionic bond.