Answer:
Check the explanation
Explanation:
The concept used in this problem is based on Nuclear magnetic resonance [tex]\left( {^{\rm{1}}{\rm{H NMR}}} \right)( 1 HNMR)[/tex] spectroscopy. The peaks in the [tex]{\rm{NMR}}NMR[/tex] spectrum are used to identify the structure of the compound.
First, identify the number of signals of a given compound. After that assign the values of the chemical shift to identified signals in the spectrum.
Fundamentals
Principle of [tex]^{\bf{1}}{\bf{H NMR}}[/tex] spectroscopy:
The principle of [tex]^{\rm{1}}{\rm{H NMR}}[/tex]
is that when the external magnetic field is applied, the energy is transferred from ground state to higher energy level and when the spin returns to ground state absorbed radio-frequency is emitted at the same frequency, that radio-frequency give the spectrum of the nucleus.
Chemical shift:
It is the difference between the resonance frequency of observed proton and tetramethylsilane [tex]\left( {{\rm{TMS}}})[/tex] . [tex]{\rm{TMS}}[/tex] is used as a reference in [tex]{\rm{NMR}}[/tex]spectroscopy. The chemical shift of [tex]{\rm{TMS}}[/tex] is [tex]{\rm{0 ppm}}[/tex] .
Spin multiplicity:
The formula to calculate spin multiplicity is n + 1n+1 , here nn is a number of hydrogens of neighboring carbon.
Interpretation of the spectrum:
• Firstly identify the different type of signals (protons).
• Look at the multiplicity, it tells the number of protons of neighboring carbon.
• Then see the position of the peaks, identify the chemical shift.
Some of the values of the chemical shift of [tex]^{\rm{1}}{\rm{H NMR}}[/tex] are given as seen in the attached image below.
In this exercise, you should build a spectrum system, therefore:
To set up a simulation, use the explanation and also use the table given as a basis.
The concept used in this problem is based on Nuclear magnetic resonance (HNMR) spectroscopy. The peaks in the NMRNMR spectrum are used to identify the structure of the compound.
First, identify the number of signals of a given compound. After that assign the values of the chemical shift to identified signals in the spectrum.
Fundamentals:
1) Principle of HNMR spectroscopy:
is that when the external magnetic field is applied, the energy is transferred from ground state to higher energy level and when the spin returns to ground state absorbed radio-frequency is emitted at the same frequency, that radio-frequency give the spectrum of the nucleus.
2)Chemical shift:
It is the difference between the resonance frequency of observed proton and tetramethylsilane TMS . TMS is used as a reference in NMR spectroscopy. The chemical shift of TMS is 0 PPM .
3)Spin multiplicity:
The formula to calculate spin multiplicity is n + 1n+1 , here nn is a number of hydrogens of neighboring carbon.
4)Interpretation of the spectrum:
• Firstly identify the different type of signals (protons).
• Look at the multiplicity, it tells the number of protons of neighboring carbon.
• Then see the position of the peaks, identify the chemical shift.
Some of the values of the chemical shift of HNMR are given as seen in the attached image below.
Learn more: brainly.com/question/15007388
