H2O + SO3 ----> H2SO4(aq.)
They react to form Sulphuric Acid
SO2 + H2O ===> H2SO3 (sulphurous acid)
S + HNO3 = SO2 + NO2 + H2OWhen Sulfur reacts with nitric acid it forms sulfur dioxide , nitrogen dioxide and water .
Sulfur dioxide gas reacts with water droplets in the air to form sulfurous acid, which is sometimes oxidized to sulfuric acid by oxygen in the air.
H2SO4 is formed
acid rain; SO2, i.e. sulfur dioxide, reacts with water to produce H2SO3, or sulfurous acid, which then reacts with oxygen to form sulphuric acid (H2SO4), and dissolves in rain to fall as acid rain
All coal has some amount of sulfur in it. The sulfur burns into sulfur dioxide, which reacts with water to make sulfurous acid in the rain.
S + HNO3 = SO2 + NO2 + H2OWhen Sulfur reacts with nitric acid it forms sulfur dioxide , nitrogen dioxide and water .
Sulfur dioxide gas reacts with water droplets in the air to form sulfurous acid, which is sometimes oxidized to sulfuric acid by oxygen in the air.
Sulfur dioxide reacts with water to form sulfurous acid (SO2 + H2O --> HSO3)
H2SO4 is formed
Ca(OH)2 + H2SO4 --> CaSO4 + 2H2O Acid base neutralization reaction producing a salt and water.
acid rain; SO2, i.e. sulfur dioxide, reacts with water to produce H2SO3, or sulfurous acid, which then reacts with oxygen to form sulphuric acid (H2SO4), and dissolves in rain to fall as acid rain
All coal has some amount of sulfur in it. The sulfur burns into sulfur dioxide, which reacts with water to make sulfurous acid in the rain.
Acid rain!
Basically, sulfur dioxide is a acidic gas. As acid reacts with alkali, carbonates and metals, all 3 are actually ideal to remove sulfur dioxide. However, in the context of removing sulfur dioxide due to air pollution, reacting sulfur dioxide with alkali and carbonate would be more appropriate. For example, removing sulfur dioxide with calcium carbonate would result in calcium sulfate, water and carbon dioxide.
No sulfur dioxide is not present naturally. It pollutes the water.
Nitrogen dioxide (NO2) reacts with OH in the atmosphere to form nitric acid (HNO3). Nitric acid can also form when nitrogen dioxide (NO2) reacts with the nitrate radical (NO3) in the presence of atmospheric water
When SO2 [Sulphur Dioxide] reacts with water Sulphuric Acid [H2SO4] is created, which is commonly refered to as "acid rain."