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The chemical equation for the reaction between calcium oxide (CaO) and sulfur dioxide (SO2) is: CaO + SO2 → CaSO3
SO2 + Ca(OH)2 = CaSO3 + H2O The products are Water and Calcium Sulphite ; Note the spelling of the sulphur anion; NOT sulphate.
To balance the chemical equation CaO + SO2 → CaSO3, you need to add a coefficient of 1 in front of CaO and SO2. This balances the equation by ensuring that the same number of each type of atom is present on both sides.
When sulfur dioxide gas is passed over solid calcium oxide, a chemical reaction occurs to produce solid calcium sulfite. The reaction can be represented by the equation: SO2(g) + CaO(s) -> CaSO3(s). This reaction is used in industries to remove sulfur dioxide from gas emissions.
The equation FeSO4 = Fe2O3 + SO2 + SO3 is not balanced. To balance it, one possible balanced equation could be: 2FeSO4 = Fe2O3 + 2SO2 + 2SO3.
The chemical equation for the reaction between calcium oxide (CaO) and sulfur dioxide (SO2) is: CaO + SO2 → CaSO3
SO2 + Ca(OH)2 = CaSO3 + H2O The products are Water and Calcium Sulphite ; Note the spelling of the sulphur anion; NOT sulphate.
This equation is 2 CaCO3 + 2 SO2 + O2 -> 2 CaSO4 + 2 CO2.
To balance the chemical equation CaO + SO2 → CaSO3, you need to add a coefficient of 1 in front of CaO and SO2. This balances the equation by ensuring that the same number of each type of atom is present on both sides.
When sulfur dioxide gas is passed over solid calcium oxide, a chemical reaction occurs to produce solid calcium sulfite. The reaction can be represented by the equation: SO2(g) + CaO(s) -> CaSO3(s). This reaction is used in industries to remove sulfur dioxide from gas emissions.
Under very specific circumstances it can, however, the normal reaction between CaSO3 and heat in the presence of O2 (in air, for example) is to create CaSO4. A good example is the dry lime flue gas desulfurization process. In a non-forced oxidation process, CaO (lime) readily reacts with SO2 forming CaSO3 in flue gas, which is then recovered as a solid. With added oxygen (the forced oxidation process), the CaSO3 in the flue gas oxidizes to CaSO4, which is then recovered as a solid. In air, even at room temperatures, CaSO3 slowly oxidizes to CaSO4. That said, in order to get from CaSO3 to CaO and SO2, you have to heat it under reducing conditions to drive off the oxygen, creating CaS, cleave the Ca-S bond, then perform an oxidation reaction to form recoverable CaO and SO2.
The equation FeSO4 = Fe2O3 + SO2 + SO3 is not balanced. To balance it, one possible balanced equation could be: 2FeSO4 = Fe2O3 + 2SO2 + 2SO3.
The balanced equation for FeS + O2 → SO2 + FeO is: 4FeS + 7O2 → 2SO2 + 2FeO
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The compound formed from Ca and SO2 is calcium sulfite (CaSO3). In this compound, calcium has a +2 charge and sulfite has a -2 charge, resulting in the formula CaSO3.
The balanced chemical equation is: C2H6S + 5O2 -> 2CO2 + 3H2O + 2SO2. This equation is balanced as it has the same number of each type of atom on both sides of the reaction arrow.
This chemical equation is:2 ZnS + 3 O2 = 2 ZnO + SO2