2 grams of Oxygen can be obtained from 5 grams of KClO3 (only if the "CL" means "Cl", which is Chlorine! Remember that only the first letter of the atomic symbol is capitalized.)
The equation that describes this process is as follows: 2KClO3 ---> 2KCl + 3O2 For every 2 moles of reactants consumed 3 moles of oxygen gas are produced. 3 mol O2 / 2 mol KClO3 = x mol O2 / 12.3 mol KClO3 x = 12.3 mol x 3 mol / 2 mol = 18.45 mol Therefore, 18.5 mol (3 significant figures) of oxygen are produced by the decomposition of 12.3 mol of potassium chlorate
Yes, decomposition can release carbon dioxide, especially when organic matter breaks down in the presence of oxygen. Microorganisms responsible for decomposition consume organic materials and produce carbon dioxide as a byproduct of respiration.
The complete decomposition reaction is as follows:2 BrF3 → Br2 + 3 F2 , so 2 moles BrF3 will give 1 mole Br2 , hence 0.248 mole gives 0.124 mole Br2
i think it's 6 moles of Hydrogen and 3 moles of oxygen. give the complete reaction to understand better.
Mercuric oxide decomposes upon heating to give off mercury and oxygen.
The equation that describes this process is as follows: 2KClO3 ---> 2KCl + 3O2 For every 2 moles of reactants consumed 3 moles of oxygen gas are produced. 3 mol O2 / 2 mol KClO3 = x mol O2 / 12.3 mol KClO3 x = 12.3 mol x 3 mol / 2 mol = 18.45 mol Therefore, 18.5 mol (3 significant figures) of oxygen are produced by the decomposition of 12.3 mol of potassium chlorate
The answer is 1 mole potassium chlorate.
The molar volume of gas at STP is 22.4 L/mol. So, 200 L of oxygen is equivalent to 200/22.4 = 8.93 moles. The balanced chemical equation for the decomposition of ammonium chlorate is 2NH4ClO3 -> 2N2 + Cl2 + 3O2. Therefore, to produce 3 moles of oxygen, we need 2 moles of ammonium chlorate. 8.93 moles of oxygen would require 2/3 * 8.93 = 5.95 moles of ammonium chlorate. The molar mass of NH4ClO3 is 101.5 g/mol, so the mass of ammonium chlorate needed would be 5.95 * 101.5 = 604.5 grams.
Yes, decomposition can release carbon dioxide, especially when organic matter breaks down in the presence of oxygen. Microorganisms responsible for decomposition consume organic materials and produce carbon dioxide as a byproduct of respiration.
1 mole of sulfur reacts with 2 moles of oxygen to produce 1 mole of SO2. Therefore, to produce 0.567 moles of SO2, you would need to burn 0.2835 moles of sulfur.
The treatment of AgCl involves filtering and washing the precipitate with water to remove any impurities, then drying the AgCl to obtain a solid residue. The dried AgCl can then be weighed to determine its mass and calculate the amount of chloride in the original sample of KClO3. This information can be used to determine the percent decomposition of KClO3.
Yes, the animals called moles give birth to live young, as opposed to laying eggs. Moles, as in spots on the body, do not give birth.
The complete decomposition reaction is as follows:2 BrF3 → Br2 + 3 F2 , so 2 moles BrF3 will give 1 mole Br2 , hence 0.248 mole gives 0.124 mole Br2
i think it's 6 moles of Hydrogen and 3 moles of oxygen. give the complete reaction to understand better.
no...
First work out the balanced Chemical equation for the combustion of the fuel concerned. That will give you the amount of Oxygen needed. Convert the amount of fuel to be burned into to molar quantities and this will in tun tell you haw many moles of Oxygen will be needed. You then need to determine how much air (say by volume) contains that number of moles of Oxygen, given that air is only 21% oxygen.
Mercuric oxide decomposes upon heating to give off mercury and oxygen.