In this reaction, Br is the reducing agent because it is being oxidized from Br- to Br2, thereby causing the reduction of Ca from Ca to Ca2+.
All you have to do is flip the numbers and reduce. If you have Ca+2 and Br-, Switch the numbers so you get CaBr2. 1 and 2 do not have any common factors so you don't have to reduce! CaBr2 is the final answer.
In an aqueous solution of CaBr2, the solute particles are Ca2+ cations and Br- anions. When dissolved in water, CaBr2 dissociates into these ions, which are responsible for conducting electricity and other properties of the solution.
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.
The formula for calcium bromide is CaBr2, where Ca represents calcium and Br represents bromine.
The ionic compound calcium bromide is CaBr2.
All you have to do is flip the numbers and reduce. If you have Ca+2 and Br-, Switch the numbers so you get CaBr2. 1 and 2 do not have any common factors so you don't have to reduce! CaBr2 is the final answer.
In an aqueous solution of CaBr2, the solute particles are Ca2+ cations and Br- anions. When dissolved in water, CaBr2 dissociates into these ions, which are responsible for conducting electricity and other properties of the solution.
In this case, the strongest reducing agent is Cl-, followed by Br-, and then I-. This is because the larger the atomic radius, the easier it is to lose an electron, making them better reducing agents.
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.
The formula for calcium bromide is CaBr2, where Ca represents calcium and Br represents bromine.
The ionic compound calcium bromide is CaBr2.
A solution of CaBr2 is neutral. When CaBr2 dissolves in water, it dissociates into calcium ions (Ca2+) and bromide ions (Br-), which do not significantly affect the pH of the solution.
Ca+2 + Br-1 --> CaBr2 (calcium bromide)
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.
CaBr2
1st you must find the molar mass of CaBr2. Ca 40.08g * (number of moles in the compound) 1 Br 79.90g * 2 This give you the amount (g) in 1 mole of CaBr2. Multiply by 14 and you get the answer.
The compound CaBr2 is called calcium bromide. It is an inorganic salt consisting of calcium cations (Ca2+) and bromide anions (Br-). It is commonly used in various industrial applications.