So, I saw the thread out 'is there more to science than evolution debates', and I figured that hey, maybe we could use some more science talk that doesn't generally have much debate inherent in it.
So. One thing that I wind up using at my work is mass spectroscopy. I have had classes on it, and know the theory behind it, and I get how the m/z peaks work and what chunks they tend to represent.
I was hoping someone might be able to explain to me, though, what information can be gleaned from relative heights of peaks? I don't mean the whole A+1, A+2, A deal, I get that.
I mean things like okay, I have a m/z peak at 29 with a relative abundance of 40, another at 43 with a relative abundance of 70, and one at 57 with a relative abundance of, say, 95. What can that tell me about my compound, given that all the little peaks around them from all the A+1 carbons are as they should be?
I can't give any specific examples from work as per my employment offer since it's all trade secrets and such, but if others have questions about how it works and how I use it, I'd love to talk about science in action.
Metherion
So. One thing that I wind up using at my work is mass spectroscopy. I have had classes on it, and know the theory behind it, and I get how the m/z peaks work and what chunks they tend to represent.
I was hoping someone might be able to explain to me, though, what information can be gleaned from relative heights of peaks? I don't mean the whole A+1, A+2, A deal, I get that.
I mean things like okay, I have a m/z peak at 29 with a relative abundance of 40, another at 43 with a relative abundance of 70, and one at 57 with a relative abundance of, say, 95. What can that tell me about my compound, given that all the little peaks around them from all the A+1 carbons are as they should be?
I can't give any specific examples from work as per my employment offer since it's all trade secrets and such, but if others have questions about how it works and how I use it, I'd love to talk about science in action.
Metherion
