One mole of a substance contains an Avogadro's number of molecules, which is equal to `6.023 xx 10^23` molecules.
One mole of a substance contain one molar mass of that particular substance. The molar mass of benzene (chemical formula: `C_6H_6`) is 78 g/mole ( = 6 x 12 + 6 x 1).
In other words, 78 grams of benzene is present in 1 mole of benzene.
This is also the same as saying 78 g...
One mole of a substance contains an Avogadro's number of molecules, which is equal to `6.023 xx 10^23` molecules.
One mole of a substance contain one molar mass of that particular substance. The molar mass of benzene (chemical formula: `C_6H_6`) is 78 g/mole ( = 6 x 12 + 6 x 1).
In other words, 78 grams of benzene is present in 1 mole of benzene.
This is also the same as saying 78 g of benzene contain 6.023 x 10^23 molecules.
Here, we have only 16 g of benzene. Therefore, by unitary method:
1 g of benzene contains (6.023 x 10^23)/78 molecules
and 16 g benzene contains 16 x (6.023 x 10^23)/78 = 1.24 x 10^23 molecules of benzene.
The same can also be calculated by knowing that 16 g of benzene is equivalent to 16/78 = 0.205 moles of benzene and then multiplying it by Avogadro's number to determine the number of molecules.
Hope this helps.
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