The formula for this problem is C10H14O2 please label on the spectra where you get each portion of the molecule from. Please also find J values. Thank you!
1. What was your unknown number for this experiment? Unknown 15 C10H14O2 2. Draw the structure you propose for your unknown below. Discussion and conclusion Attach your annotated spectra (as demonstrated with Unknown \#33) to support your assignment of the structure above. Be sure to address the following on your spectra: 1. For your proton NMR spectrum, provide a description of the splitting pattern, coupling constant (aka J value, to one decimal place, in Hz ), and relative integral value, along with the peak assignment (which hydrogen in your spectrum corresponds to which signal) for each peak. You will want to use expanded signals, perhaps on multiple pages, to clearly convey this information. Not all peaks will be unambiguous, but assign as many signals as possible. 2. For your carbon NMR spectrum, provide the peak assignment (which carbon in your spectrum corresponds to which signal) for each peak. You may wish to include notes from your DEPT spectrum to justify your assignments. Not all peaks will be unambiguous, but assign as many signals as possible. 1. What was your unknown number for this experiment? Unknown 15 C10H14O2 2. Draw the structure you propose for your unknown below. Discussion and conclusion Attach your annotated spectra (as demonstrated with Unknown \#33) to support your assignment of the structure above. Be sure to address the following on your spectra: 1. For your proton NMR spectrum, provide a description of the splitting pattern, coupling constant (aka J value, to one decimal place, in Hz ), and relative integral value, along with the peak assignment (which hydrogen in your spectrum corresponds to which signal) for each peak. You will want to use expanded signals, perhaps on multiple pages, to clearly convey this information. Not all peaks will be unambiguous, but assign as many signals as possible. 2. For your carbon NMR spectrum, provide the peak assignment (which carbon in your spectrum corresponds to which signal) for each peak. You may wish to include notes from your DEPT spectrum to justify your assignments. Not all peaks will be unambiguous, but assign as many signals as possible