Calculating Moles of Oxygen in a Cylinder

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To calculate the moles of oxygen in a cylinder containing 50 g of oxygen gas, the correct molecular weight of diatomic oxygen (O2) is 32 g/mol, not 16 g/mol. The calculation is done by dividing the mass of oxygen by its molar mass: 50 g / 32 g/mol equals 1.5625 moles of O2. The confusion arose from interpreting the mass as atomic oxygen instead of molecular oxygen. Understanding the distinction between atomic and molecular forms is crucial for accurate calculations. The final answer confirms that there are approximately 1.56 moles of oxygen gas in the cylinder.
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[SOLVED] Converting Mol

1. A 20-cm-diameter cylinder that is 40 cm long contains 50 g of oxygen gas at 20 degrees celsius.

How many moles of oxygen are in the cylinder?




so 1 mol = 6.022*10^23
oxygen atomic mass=16g/mol
50g/16(g/mol) = 3.125 mol

I don't know why it is wrong, someone told me it is 50g/32(g/mol) but why is it 32 instead of 16?
 
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Do you mean 50 grams of oxygen gas, or do you mean of oxygen by mass as if all were present counted as the atoms?

You then basically have V, T, you might need R (look for the value in a book);
Actually, the number of moles will not change. You said you have "50 grams", but you did not say as the atoms or as the diatomic gas. You only need to know 1 mole equals 6.02*10^23 units. You need to know if you were given just mass of oxygen atoms or mass of diatomic oxygen.
 
ok i get it, i didnt see the gas part. It was talking about O2 thanks
 
Thread 'Confusion regarding a chemical kinetics problem'

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