Tip:
Highlight text to annotate it
X
Hi. It's Mr. Andersen and today I'm going to show you the diffusion demo of
the lab one diffusion and osmosis lab. And so first of all to review what is diffusion?
Diffusion remember is the movement of molecules from an area of high concentration to low
concentration. It's just do to molecular motion. So if we put some food coloring in water,
the food coloring is just going to move apart. And that's because the molecules are moving.
And so it's going to move apart until the concentration throughout is going to be the
same. And so basically what you're going to try answer after watching this diffusion demo
is rank the following from smallest to largest. Starch, glucose, water, the pores in the dialysis
tubing and then finally IKI or Lugol's solution. So first of all I should probably describe
what all of these things are. Starch is going to be a polysaccharide. And so before we talk
about what a polysaccharide is, we should talk about what a saccharide is or a monosaccharide.
Glucose is a monosaccharide. That means that it's essentially C 6 H 12 O 6. And so it is
six carbons organized kind of in a hexagon. It's got a lot of oxygen and hydrogen around
the outside. And so that's a monosaccharide. If we look at starch, so starch like that's
found in a potato, starch is going to be a number of monosaccharides attached together.
And so we call that a polysaccharide. And it's not just going to be a few like I'm drawing
right here. A good starch or a good polysaccharide is going to have thousands of these glucose
molecules attached together. Over and over and over. And so starch and glucose are both
sugars. Both carbohydrates. Now it's just that starch happens to be a little bit bigger.
Hopefully you're familiar with water. Water is going to be made up of two things. You're
going to have one oxygen atom. And then you're going to have two hydrogen atoms attached
on the side. And so water is simply H2O. Next one is the pores in the dialysis tubing. So
we're going to put some liquid inside a dialysis tubing. We'll seal it off on either side.
So it's going to be sealed off like that. But the pores in the dialysis tubing are going
to be these microscopic holes that are in the dialysis tubing. Remember dialysis tubing
is used kidney dialysis. And so you can't really even see the holes at all. But they're
really really tiny. And then the last thing is Lugol's solution or IKI. The big thing
that you're looking for here is going to be the iodine that's found in the Lugol's solution.
The big thing that you need to know is that if you ever have Lugol's solution and starch
in the same place at the same time, you're going to get a real blue color. So it turns
to a blue color. In other words if you were to take a potato and then just put Lugol's
solution on it, you're going to get blue coloration on that potato. That's just due to a chemical
reaction. But we use Lugol's solution or IKI as an indicator of starch. So where we're
going to find starch. And so after you watch this demo what you want to be able to do is
rank the following, starch, glucose, water, pores in the dialysis tubing and then finally
IKI. You want to be able to rank all of those from the smallest to the biggest. Okay. The
video, since I'm at home you can tell, I don't have the chemistry equipment right here. And
so I'm going to grab a video from YouTube. This one I am taking from RdtoUtopia and it's
got quite a few hits. 32,000. It's been around for awhile. But it just shows you a demonstration
of this. And so thank you to RdtoUtopia. You probably want to visit it to see the whole
video. I'm just going to show you a portion of it. And if you go there you'll also see
a really good video of a dancing robot toy, which is worth the trip as well. And so thank
you for that. But this is the diffusion experiment. So first of all let me kind of get it started.
So let's get it started. Okay. So let me stop it right there and draw on it a little bit.
So what do we have in this experiment? We have in here a bag, this is that bag of dialysis
tubing. And you can see that it's kind of a whitish kind of a yellowish color. It's
kind of sealed off on the sides. And so if we look at what's in there, inside here we're
going to have two things. We're going to put starch in it to begin with, starch solution.
And then we're also going to put glucose inside there. And then the other thing we put just
to dissolve those is going to be water. So we have those three things inside the dialysis
tubing. Outside the dialysis tubing, so in this area out here in the liquid portion of
the beaker we've got the, let me draw an arrow here. So out here we've got water. And then
we've also got the Lugol's solution. So we have this IKI. Alright. The other thing you
normally do before you start this is you start looking at the presence of glucose or the
absence of glucose. And so you do that using this. These glucose test strips. Right over
here. They're used to monitor glucose levels. So if you're a diabetic it's a good way to
see how much glucose there is in your urine is what we're looking at. Because if you have
high glucose levels it's an indicator of problems with regulating blood sugar. And so what you
do is you put a strip into the fluid. And then it will change to a color. So it will
start as a blue color. But it can move all the way up to a red color. This is what I
use in class to figure out if there's glucose present. And so if we were to take this glucose
strip and put it inside this, are we going to find glucose? The answer is yes. So we'll
have a positive out here. And I just said over here a second ago that there's glucose
in there. So that shouldn't be a surprise. If we were to take a test strip and look out
here we're going to find glucose out here. We'll have a negative for that. So there's
no glucose out here to start with. But there's going to be glucose inside. And so this is
what it looks like when it starts. And I'm going to have to get rid of this writing for
a second. And then we'll play the video for a bit. And you can see immediately that it
starts to get a coloration change inside the beaker. And let me kind of move it out. Move
it up a little bit faster. So we'll look all the way out here. And I'm going to play it
there. So this is like ten minutes later. And so now, ten minutes later, when you pull
it out we've got the same dialysis bag. It seems like the color has changed a little
bit. If we were to now test it for glucose what we would find is that there is still
going to be a positive for glucose inside. But now if we look out here there's going
to be a positive for glucose out there with a test strip. And so that's kind of all the
diffusion demonstration is. So now your goal is to figure out from smallest to largest,
can you rank these five things? And you're going to have to use an understanding of diffusion.
But you're also going to have to use logic to figure that out. And I'm not going to tell
you the answer. So I hope that's somewhat helpful.