How many moles of N atoms are in 4.70 mol of dinitrogen tetraoxide (N2O4)
There are two atoms of N in 1 molecule of N2O4; therefore, in 4.70 moles N2O4 there will be 2*4.70 moles N atoms.
To determine the number of moles of N atoms in 4.70 mol of dinitrogen tetraoxide (N2O4), we need to consider the ratio of N atoms to the N2O4 molecule.
In one molecule of N2O4, there are 2 moles of N atoms. This is because each N2O4 molecule consists of 2 nitrogen (N) atoms.
So, to find the number of moles of N atoms in 4.70 mol of N2O4, we can use the following conversion:
Number of moles of N atoms = Number of moles of N2O4 × (2 moles of N atoms / 1 mole of N2O4)
Number of moles of N atoms = 4.70 mol × 2
Number of moles of N atoms = 9.40 mol
Therefore, there are 9.40 moles of N atoms in 4.70 mol of dinitrogen tetraoxide (N2O4).
To determine the number of moles of N atoms in a given number of moles of dinitrogen tetraoxide (N2O4), you'll need to consider the ratio of N atoms to N2O4 molecules.
The chemical formula of dinitrogen tetraoxide is N2O4, which means that each molecule of N2O4 contains 2 nitrogen (N) atoms.
So, to find the number of moles of N atoms, you can use the conversion factor that relates moles of N2O4 to moles of N atoms:
moles of N atoms = moles of N2O4 × (2 moles of N atoms / 1 mole of N2O4)
In this case, you have 4.70 mol of N2O4, so you can substitute the value into the equation:
moles of N atoms = 4.70 mol × (2 moles of N atoms / 1 mole of N2O4)
Now, calculate the result:
moles of N atoms = 4.70 mol × 2
moles of N atoms = 9.40 mol
Therefore, there are 9.40 moles of N atoms in 4.70 mol of dinitrogen tetraoxide.