Ca + Cl2 -> CaCl2
You have answered the question for yourself. Calcium + Chlorine = Calcium chloride. The BALANCED reaction equation is Ca(s) + Cl2(g) = CaCl2(s)
The balanced equation for calcium chloride is CaCl2. This means that for every calcium atom, there are two chlorine atoms.
When calcium oxide is reacted with chlorine, calcium chloride is formed along with oxygen gas. The balanced chemical equation for the reaction is: CaO + Cl2 → CaCl2 + O2.
The balanced chemical equation for this reaction is: Ca(s) + Cl2(g) -> CaCl2(s). This equation shows that one mole of solid calcium reacts with one mole of chlorine gas to produce one mole of solid calcium chloride.
Calcium chloride is CaCl2; the subscript of chlorine is 2.
You have answered the question for yourself. Calcium + Chlorine = Calcium chloride. The BALANCED reaction equation is Ca(s) + Cl2(g) = CaCl2(s)
The balanced equation for calcium chloride is CaCl2. This means that for every calcium atom, there are two chlorine atoms.
Ca + Cl2 ---> CaCl2
When calcium oxide is reacted with chlorine, calcium chloride is formed along with oxygen gas. The balanced chemical equation for the reaction is: CaO + Cl2 → CaCl2 + O2.
The balanced chemical equation for this reaction is: Ca(s) + Cl2(g) -> CaCl2(s). This equation shows that one mole of solid calcium reacts with one mole of chlorine gas to produce one mole of solid calcium chloride.
The balanced chemical equation for the reaction between calcium and chlorine gas to produce calcium chloride is: Ca + Cl2 -> CaCl2. From this equation, we can see that one mole of calcium reacts with one mole of chlorine gas to produce one mole of calcium chloride. The molar mass of calcium is 40.08 g/mol and the molar mass of chlorine gas is 70.90 g/mol. This means that 10.0 grams of calcium is equivalent to 0.249 moles of calcium and 20.0 grams of chlorine gas is equivalent to 0.282 moles of chlorine gas. Since the ratio of calcium to chlorine gas in the balanced chemical equation is 1:1, this means that 0.249 moles of calcium would react completely with 0.249 moles of chlorine gas, leaving an excess of 0.033 moles (or 2.34 grams) of chlorine gas. The limiting reactant in this reaction is calcium, and the maximum amount of calcium chloride that can be produced is equivalent to the number of moles of the limiting reactant, which is 0.249 moles (or 27.8 grams) of calcium chloride.
Calcium + Chlorine --> Calcium Chloride Ca + Cl --> CaCl Balanced Equation: Ca + Cl2 --> CaCl2 Calcium has a 2+ charge, while chlorine has a 1- charge. Therefore you need two chlorine ions to balance the charges.
The reaction between calcium metal and chlorine gas will produce calcium chloride as the product. This is represented by the chemical equation: Ca + Cl2 -> CaCl2.
We find the alkaline earth metal calcium in Group 2 of the periodic table. It "lives" there because it has two valence electrons. The nature of calcium is that it would really like to loan out those two electrons in an attempt to emulate the electron configuration of an inert or noble gas. Because it wants to loan out those two electrons, it has a "desire" to participate in chemical reactions.To cite a single example of what calcium wants to do, let's combine it with chlorine in a chemical reaction. We know that chlorine is one electron short of a full valence shell, so this element wants to borrow an electron if it can. As calcium wants to loan out two electrons and chlorine wants to borrow one, they will react. Calcium and chlorine form calcium chloride. But there is bit more to the story.An atom of calcium has two valence electrons to loan out, while chlorine wants to borrow only one. That means that twochlorine atoms will react with one calcium atom to make calcium chloride. Here's the reaction:Ca + 2Cl => CaCl2We've written the balanced chemical equation for the reaction of calcium with chlorine. Note that the 2 in front of the Cl on the left side of the equation appears as a subscript with the Cl on the right hand side of the equation. Our equation is correct.It could be argued that chlorine appears as Cl2 in its elemental state. (This is dichlorine, a diatomic molecule.) In that case, we'd have to adjust our equation to balance it, and it would appear like this:2Ca + 2Cl2 => 2CaCl2
Calcium chloride is CaCl2; the subscript of chlorine is 2.
2caoh + 2h2so4_2caso4 + 3h2o the equation is balance
The balanced equation for the reaction between calcium (Ca) and chlorine (Cl2) to form calcium chloride (CaCl2) is: 2Ca + Cl2 -> 2CaCl2