Sulfur dioxide is a common preservative in wine; it prevents oxidation and bacterial growth.  When SO₂ is added to wine, it reacts with water to form an equilibrium system with the bisulfite ion:  

SO_2(aq) + H₂O_(l) ↔↔H⁺_(aq) + HSO₃^-_(aq)

In this equilibrium system, SO₂, is called "molecular SO₂";  in its HSO₃^- form it is called "free SO₂".  Only molecular SO₂ acts like a preservative.  The amount of molecular SO₂ in the equilibrium system is highly pH dependent.  The lower the pH, the more the equilibrium shifts to the left and the greater the amount of free SO₂ is present. (it favors the reactants). The recommended amount of free SO₂ is 0.8 ppm for white wine and 0.5 ppm for red wine.  The table below shows the amount of free SO₂ required to obtain the correct amount of molecular SO₂ as a function of pH for both red and white wine.  For dilute solutions such as these, 1 ppm = 1 mg/L.  Using the table values, answer the following questions.

Table:  Amount of free SO₂ required to maintain correct amounts of molecular SO₂ in white and red wine.

A: Gaseous SO₂ is highly toxic and can be difficult to handle, so winemakers often use potassium metabisulfite (K₂S₂O₅), also known as KMBS, as a source of SO₂ in wine.  When KMBS is added to wine, the metabisulfite ion (S₂O₅^2-) reacts with water to form the bisulfite ion.  Write the balanced chemical equation for the reaction that occurs when the metabisulfite ions reacts with water.

B: Determine the percent by mass of SO₂ in KMBS.

Please Answer Question A and B

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White Wine 0.8 ppm molecular 0.5 ppm molecular Red Wine pH sO2 sO2 13 8 3.05 15 3.1 16 10 3.15 19 12 3.2 21 13 3.25 23 15 3.3 26 16 3.35 29 18 3.4 32 20 3.45 37 23 3.5 40 25 3.55 46 29 3.6 50 31 3.65 57 36 3.7 63 39 3.75 72 45 3.8 79 49 3.85 91 57 3.9 99 62 3.