H2O + SO3 --> H2SO4
The product is sulfuric acid.
SO3 + H2O --> H2SO4 commonly called sulfuric acid.
1:2, does this need explaining???? 1-O2 for every 2-SO3 thus 1:2
Al2(SO3)3 = aluminum sulfite
NO2, SO2, and SO3 are chemical compounds. NO2 is nitrogen dioxide, a reddish-brown gas responsible for smog and acid rain. SO2 is sulfur dioxide, a pungent gas produced by burning fossil fuels that can cause respiratory issues and contribute to acid rain. SO3 is sulfur trioxide, a reactive compound that plays a role in forming sulfuric acid in the atmosphere.
The compound would have the chemical formula SO3.
The balanced equation for the reaction between SO3 and H2O is: SO3 + H2O → H2SO4
The amount of NO and SO3 would increased.
The equation FeSO4 = Fe2O3 + SO2 + SO3 is not balanced. To balance it, one possible balanced equation could be: 2FeSO4 = Fe2O3 + 2SO2 + 2SO3.
SO2(g) + NO2(g) ==> SO3(g) + NO(g)Keq = [SO3][NO]/[SO2][NO2] Without knowing concentrations, one cannot calculate the actual value of Keq.
SO3 + H2O --> H2SO4 commonly called sulfuric acid.
The reaction of sulfur trioxide (SO3) with water (H2O) produces sulfuric acid (H2SO4) according to the following equation: SO3 + H2O → H2SO4. This is an example of a hydration reaction where the SO3 molecule reacts with water to form a new compound, sulfuric acid.
SO2(g) + NO2(g) ==> SO3(g) + NO(g)Keq = [SO3][NO]/[SO2][NO2] Without knowing concentrations, one cannot calculate the actual value of Keq.
1:2, does this need explaining???? 1-O2 for every 2-SO3 thus 1:2
Formula: SO3
SO3 is the chemical formula for sulfur trioxide.
Increasing the concentration of either SO2 or O2 would drive the reaction towards the formation of more SO3, resulting in an increase in the concentration of SO3. Increasing the temperature, however, would cause the greatest increase in the concentration of SO3 as it favors the forward reaction which produces more SO3.
In SO3, there is the greatest unequal sharing of bonding electrons. This is because sulfur is more electronegative than oxygen, leading to a greater unequal sharing of electrons in the sulfur-oxygen bonds.