calcium bromide
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.
ionic because calcium is a metal and bromine is a non-metal
CaBr2 is an ionic compound. It is made up of calcium (Ca), which is a metal, and bromine (Br), which is a non-metal. In the compound, calcium loses two electrons to form a Ca2+ ion, while bromine gains one electron to form Br- ions, resulting in an ionic bond between them.
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.
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.
ionic because calcium is a metal and bromine is a non-metal
We know that the alkaline earth metal calcium (Ca) and the halogen bromine (Br) form the ionic compound calcium bromide (CaBr2). Here's the reaction: Ca + 2Br => CaBr2
CaBr2 is an ionic compound. It is made up of calcium (Ca), which is a metal, and bromine (Br), which is a non-metal. In the compound, calcium loses two electrons to form a Ca2+ ion, while bromine gains one electron to form Br- ions, resulting in an ionic bond between them.
No. Ionic compounds are high melting, examples: NaCl 8010C, CaBr2, 7300C; Li2O 15700C)
The formula for the ionic compound formed by calcium and bromine is CaBr2. Calcium, a group 2 element, has a 2+ charge while bromine, a group 17 element, has a 1- charge. To balance the charges, two bromine ions combine with one calcium ion to form CaBr2.
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.
The formula for the ionic compound formed by calcium (Ca2+) and bromine (Br-) would be CaBr2. The calcium ion has a charge of 2+ while the bromine ion has a charge of 1-, so two bromine ions are needed to balance the charge of one calcium ion.
Fe (III) has a charge of 3+. Br has a charge of 1-. This means that in order to make the overall charge of the ionic compound of Iron III and Bromine, there must be one atom of Iron III and three atoms of Bromine. This makes the formula FeBr3.
CaBr2
No, it is a chemical compound, with formula CaBr2