– [Instructor] Let’s say that we have some type of a container that has some type of mystery molecule in it. So that’s my mystery molecule there, and we’re able to measure the composition of the mystery molecule by mass. We’re able to see that it
is 73% by mass mercury, and by mass it is 27% chlorine, so the remainder is chlorine by mass. So pause this video and
see if you can come up with what is likely the empirical formula for our mystery molecule in here, and as a little bit of a hint, a periodic table of
elements might be useful. All right, now let’s work
through this together, and to help us make things
a little bit more tangible, I’m just going to assume a
mass for this entire bag. Let’s just assume it is, or this entire container is 100 grams. I could have assumed
1,000 grams or 5 grams, but 100 grams will make the math easy because our whole goal is to say, hey, what’s the ratio between
the number of moles we have of mercury and the number of
the moles we have of chlorine and then that will inform
the likely empirical formula. So if we assume 100 grams,
well then we are dealing with a situation that our mercury,
we have 73 grams of mercury, and we can figure out
how many moles this is by looking at the average
atomic mass of mercury. That’s why that periodic
table of elements is useful. We see that one mole of mercury
is 200.59 grams on average, so we could multiply this times one over 200.59 moles per gram. So when we multiply this out,
the grams will cancel out and we’re just going to be left with a certain number of moles. So I’ll take 73 and we’re just
going to divide it by 200.59, divided by 200.59 is going to be equal to
0.36, and I’ll just say 0.36 because this is going to be a little bit of an estimation game,
and significant digits, I only have two significant digits on the original mass of
mercury, so 0.36 moles, roughly. I’ll even say roughly right over there, and I can do the same thing with chlorine. Chlorine, if I have 27% by mass, 27% of 100, which I’m
assuming, is 27 grams. And then how many grams per mole? If I have one mole for chlorine, on average on earth the average
atomic mass is 35.45 grams. And so this is going to
approximate how many moles because the grams are going to cancel out, and it makes sense that
this is going to be a fraction of a mole because
27 grams is less than 35.45. We take 27 divided by 35.45. It gets us to 0.76, roughly, 0.76. And remember, we’re talking about moles. This is how many moles
of chlorine we have, or this is how many moles
of mercury, that’s a number. You can view that as the
number of atoms of mercury or the number of atoms of chlorine. Moles are just the quantity