![SOLVED: Calculation of the Coupling Constant; This is simple example that illustrales how calculate the chemical shift of doublet and how t0 deterine the coupling constant (the J value) for such signal: SOLVED: Calculation of the Coupling Constant; This is simple example that illustrales how calculate the chemical shift of doublet and how t0 deterine the coupling constant (the J value) for such signal:](https://cdn.numerade.com/ask_previews/83a88f7c-4ad4-46f5-b9dd-17aa647fcd26_large.jpg)
SOLVED: Calculation of the Coupling Constant; This is simple example that illustrales how calculate the chemical shift of doublet and how t0 deterine the coupling constant (the J value) for such signal:
![NMR-11 || Coupling constant (J) || Importance of J || Karplus equation || Long & Short Coupling - YouTube NMR-11 || Coupling constant (J) || Importance of J || Karplus equation || Long & Short Coupling - YouTube](https://i.ytimg.com/vi/VesIXEHNatw/maxresdefault.jpg)
NMR-11 || Coupling constant (J) || Importance of J || Karplus equation || Long & Short Coupling - YouTube
![Can you please give me any reference or an explanation on the splitting tree (with coupling constant) for glycerol proton NMR? | ResearchGate Can you please give me any reference or an explanation on the splitting tree (with coupling constant) for glycerol proton NMR? | ResearchGate](https://www.researchgate.net/profile/Abu-Siddique-22/post/Can-you-please-give-me-any-reference-or-an-explanation-on-the-splitting-tree-with-coupling-constant-for-glycerol-proton-NMR/attachment/5d9bd002cfe4a777d4e412e1/AS%3A811518174195712%401570492418866/image/Glycerol_2.png)
Can you please give me any reference or an explanation on the splitting tree (with coupling constant) for glycerol proton NMR? | ResearchGate
![SOLVED: Calculate the coupling constant for the NMR signal at 6.4 ppm shown below: A 500 MHz instrument was used to record the spectrum. This is a typical coupling constant for trans-alkenes SOLVED: Calculate the coupling constant for the NMR signal at 6.4 ppm shown below: A 500 MHz instrument was used to record the spectrum. This is a typical coupling constant for trans-alkenes](https://cdn.numerade.com/ask_images/9fa5a809fbcc49e3ac2f5325a44f1b76.jpg)