00:01
What we're going to do is find the most stable conformation for the following molecule, that is the one that appears here in the corner, and the first thing that we need to do is to label the carbon atoms, so this is going to be 1, 2, 3, 4, 5, and 6.
00:19
Next up, we need to remember that whenever we start writing down our positions, we're going to use the same numbers that we did on the first one.
00:33
So i'm going to start with a 1 over here, 1, 2, 3, 4, 5, and carbon 6.
00:43
And on the other side, we need to keep the same order, but we flip the chair.
00:48
So that means that now carbon 1 is this one on the corner, carbon 2, carbon 3, carbon 4, carbon 5, and carbon 6.
00:56
So recall that this is going to be a chair flip.
00:59
For now i'm going to omit the equilibrium lines because we just want to draw the most stable conformation.
01:07
So on this conformation we're going to have an equatorial and axial position.
01:15
So over here in the axial position we're going to have a nitrogen atom in carbon 1 and then here on the equatorial one we're going to have this little fellow going down.
01:27
So this is in the equatorial looking down position.
01:31
Next up, we're going to have on carbon 2, in the axial position, we're going to have an hydrogen atom.
01:39
This is axial going down.
01:40
And we're going to have a ch3 looking under equatorial up position...