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Inside the NMR Spectrometer

Inside the NMR Spectrometer. Normal nuclei Nuclei in a magnetic field Radio waves will ‘pulse’ these nuclei to stimulate a response that can be recorded. The nuclei’s response to the ‘pulse’ is then recorded as a peak (or set of peaks) which will be placed on a graph (see above).

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Inside the NMR Spectrometer

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  1. Inside the NMR Spectrometer

  2. Normal nuclei • Nuclei in a magnetic field • Radio waves will ‘pulse’ these nuclei to stimulate a response that can be recorded

  3. The nuclei’s response to the ‘pulse’ is then recorded as a peak (or set of peaks) which will be placed on a graph (see above). These peaks are always reference to TMS (tetramethylsilane = 0 ppm) Where the peaks occur depends on the shielding or deshielding effects experience by that nuclei.

  4. Approximate ppm of certain H’s(Note: Additional deshielding can change these values)

  5. Very Shielded Very deshielded Note: Remember these values will change if there is additional deshielding effects.

  6. N + 1 Rule N + 1 = 1 peak N + 1 = 2 N + 1 = 3 N + 1 = 4 N + 1 = 5 N + 1 = 6 N =

  7. Example #1

  8. 6 cm 2 cm 6/2 = 3 equiv H’s 3 x 3 = 9 H’s 2/2 = 1 equiv H’s 1 x 3 = 3 H’s -Divide by 2, because it is the lowest out of all the distances -You may need to multiply by some whole number until you reach the appropriate amounts of H’s (Fudge Factor). Example #2 – Integration

  9. We can also use 13C NMR *Approximate range (ppm) of different carbons

  10. Time = 5 minutes of scanning Time = 1 hour of scanning (or more)

  11. Pieces of the Puzzle # of Unsaturations = #C - #H/2 - #Hal/2 + #N/2 +1 C = Carbon H = Hydrogen Hal = Halogens N = Nitrogen Be sure to follow this example in the workshop!

  12. J Value Examples

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