These compounds are called hydrates; water is called water of crystallization.
The reaction equation between heptane and potassium permanganate is: C7H16 + 19KMnO4 + 40H2SO4 → 7MnSO4 + 19K2SO4 + 16H2O + 7CO2. This reaction is an oxidation reaction where heptane is converted to carbon dioxide, water, and other byproducts.
14KMnO4 + 4C3H5(OH)3 --> 7K2CO3 + 7Mn2O3 + 5CO2 + 16H2O
The reaction equation between heptane and potassium permanganate is: C7H16 + 19KMnO4 + 40H2SO4 → 7MnSO4 + 19K2SO4 + 16H2O + 7CO2. This reaction is an oxidation reaction where heptane is converted to carbon dioxide, water, and other byproducts.
To titrate 0.05 M ferrous ammonium sulfate, you would typically use a 0.05 M potassium permanganate (KMnO4) solution. The balanced chemical equation for the reaction is 5Fe(NH4)2(SO4)2 + 8KMnO4 + 24H2SO4 → 5Fe2(SO4)3 + 8MnSO4 + K2SO4 + 24(NH4)2SO4 + 16H2O.
14KMnO4 + 4C3H5(OH)3 --> 7K2CO3 + 7Mn2O3 + 5CO2 + 16H2O
The molar mass of S8 is 256 g/mol. To find the maximum mass of S8 produced, calculate the number of moles of each reactant (4 moles for SO2 and 1 mole for H2S). Then, determine which reactant limits the mass of S8 produced by using the stoichiometry of the balanced chemical equation. In this case, 4 moles of SO2 will limit the production of S8, resulting in a maximum mass of 256g of S8 produced.
The incomplete combustion of octane, which is a component of gasoline, can produce carbon monoxide (CO) and carbon (C) as byproducts. The balanced chemical equation for the incomplete combustion of octane is 2C8H18 + 17O2 → 8CO + 8CO2 + 16H2O. This equation demonstrates that when octane reacts with oxygen in insufficient amounts, it results in the formation of carbon monoxide and carbon, along with carbon dioxide and water vapor.
C7H16+11O2 = 7CO2+8H2O is the balanced equation for the complete combustion of heptane.