The answer is 1,52 moles.
Nitrogen has many oxides like Nitrogen dioxide, Nitrous oxide, etc. Nitrogen monoxide refers to a single compound with formula NO. Whereas Nitrogen oxide can refer any higher or lower oxide of nitrogen. It can refer to Nitrous oxide, Nitric oxide, Dinitrogen trioxide, etc.
Nitrous oxide is N2O and has 22 protons (7 from each nitrogen, 8 from oxygen)
how many moles of sulfur are present in 3.4 moles of Al2(SO4)3
2,615 moles of aluminium oxide.
The answer is 1,25 moles iron(III) oxide.
Molar mass: 44.013 g/mole 81.0/44.013=1.84 mole N2O Moles of N 1 mole N2O contains 2 atoms N 1.84 mole N2O contain 1.84*2=3.68 mole N atoms
8,4 liters of nitrous oxide at STP contain 2,65 moles.
nitrous oxide, or N2O contains two elements, Nitrogen and Oxygen
Nitrogen has many oxides like Nitrogen dioxide, Nitrous oxide, etc. Nitrogen monoxide refers to a single compound with formula NO. Whereas Nitrogen oxide can refer any higher or lower oxide of nitrogen. It can refer to Nitrous oxide, Nitric oxide, Dinitrogen trioxide, etc.
Nitrous oxide is N2O and has 22 protons (7 from each nitrogen, 8 from oxygen)
3.18 mol 70.0gN2O x 1mol N2O/44.013g x 2mol N/1mol N2O
The number of moles is 3,316 (for atomic nitrogen).
By seeing how many valence electrons Nitrogen has, it does, it reacts with oxygen to make nitrous oxide
The chemical formula for nitrous oxide, also known as laughing gas or dinitrogen monoxide, is N2O. That means there are two nitrogen atoms and a single oxygen atom.
For this you need the atomic (molecular) mass of NaNO3. Take the number of grams and divide it by the atomic mass. Multiply by one mole for units to cancel. NaNO3=85.0 grams60.1 grams NaNO3 / (85.0 grams) = .707 moles NaNO3
Depends on what substance is being formed. If it's nitric oxide (NO), then 5. If it's nitrogen dioxide (NO2), then 10. If nitrate (NO3), then 15.
The reaction to form nitrogen dioxide using nitric oxide is; 2NO(g) + O2(g) -> 2NO2(g) As the stoichiometry between the substances are 1:1, 1.35 moles of nitrogen monoxide is needed.