19.1.1 Proton NMR

Cards (66)

  • What does NMR spectroscopy measure when atomic nuclei are placed in a magnetic field?
    Absorption of radiofrequency radiation
  • Each nucleus in NMR spectroscopy has a nuclear spin
  • Nuclei with even numbers of protons or neutrons possess nuclear spin.
    False
  • Order the events that occur when a nucleus is placed in a magnetic field in NMR spectroscopy.
    1️⃣ Nucleus aligns with or against the magnetic field
    2️⃣ Two energy levels are created
    3️⃣ Energy difference ΔE\Delta E is established
  • Match the spectroscopic technique with its key feature:
    NMR ↔️ Nuclear spin
    IR ↔️ Molecular vibrations
    UV-Vis ↔️ Absorption of UV-Vis light
  • What is the term for the change in resonant frequency of a nucleus due to its electronic environment?
    Chemical shift
  • Protons surrounded by electron-donating groups are shielded
  • Benzene protons are deshielded due to the ring current effect, resulting in a higher chemical shift.
  • Match the type of proton with its approximate chemical shift in ppm:
    Methyl ↔️ 0.9
    Methylene ↔️ 1.3
    Benzene ↔️ 7.3
  • NMR measures the absorption of radiofrequency radiation by nuclei in a magnetic field
  • NMR spectroscopy is used to identify functional groups in organic molecules.
    False
  • What is the formula for the energy difference \Delta E</latex> in NMR spectroscopy?
    ΔE=\Delta E =hf= hf =γB0 \gamma \hbar B_{0}
  • Protons attached to electronegative groups are deshielded
  • What determines the chemical shift ranges of protons in organic molecules?
    Shielding effects of electrons
  • Match the type of proton with its chemical shift range in ppm:
    Methyl ↔️ 0.9 - 1.5
    Methylene ↔️ 1.2 - 2.0
    Aromatic ↔️ 6.5 - 8.0
    Alcohol ↔️ 0.5 - 5.0
  • In ¹H NMR spectra, the area under each peak is called integration
  • Order the peaks observed in the ¹H NMR spectrum of ethanol (CH3CH2OHCH_{3}CH_{2}OH).

    1️⃣ Triplet at 1.0 ppm for methyl protons
    2️⃣ Quartet at 3.5 ppm for methylene protons
    3️⃣ Broad singlet between 2.0 and 4.0 ppm for hydroxyl proton
  • Analyzing ¹H NMR spectra can help determine the structure of organic molecules.
  • What is the approximate chemical shift range for methyl protons in ¹H NMR spectra?
    0.9 to 1.5 ppm
  • A quartet in ¹H NMR spectra typically appears at around 3.5
  • Hydroxyl protons in ¹H NMR spectra produce a broad singlet between 2.0 and 4.0 ppm.
  • What are the three key characteristics analyzed in ¹H NMR spectra to determine the structure of organic molecules?
    Chemical shifts, peak integration, splitting patterns
  • Match the proton type with its chemical shift range in ppm:
    Methyl ↔️ 0.9-1.5
    Methylene ↔️ 1.2-2.0
    Methine ↔️ 1.5-2.5
    Aromatic (Benzene) ↔️ 6.5-8.0
    Alcohol ↔️ 0.5-5.0
  • Peak integration in ¹H NMR spectra measures the number of protons in a specific environment.
  • What type of splitting pattern is observed for the methyl protons in ethanol (CH_{3}CH_{2}OH</latex>)?
    Triplet
  • A quartet in the ¹H NMR spectrum of ethanol appears at around 3.5
  • What is the primary purpose of NMR spectroscopy?
    Determine the structure of molecules
  • In NMR spectroscopy, atomic nuclei absorb radiofrequency radiation when placed in a magnetic field.
  • Nuclei with odd numbers of protons or neutrons possess nuclear spin
  • What is the formula for the energy difference between two spin states in NMR spectroscopy?
    ΔE=\Delta E =hf hf
  • Peaks in the NMR spectrum correspond to the resonance of specific nuclei within the molecule.
  • Match the spectroscopic technique with its application:
    NMR ↔️ Molecular structure determination
    IR ↔️ Identification of functional groups
    UV-Vis ↔️ Measurement of electronic transitions
  • What happens to the nuclear spin of a nucleus when placed in a magnetic field B0B_{0}?

    It aligns with or against the field
  • In ¹H NMR, protons attached to electronegative groups are deshielded
  • The electronegativity of oxygen in ethanol causes the hydroxyl proton to be deshielded and have a higher chemical shift.
  • What is the typical chemical shift range for aromatic protons in ¹H NMR spectra?
    6.5 to 8.0 ppm
  • The chemical shift values in ¹H NMR spectra are measured in units of ppm
  • Protons near electron-donating groups are shielded and have lower chemical shift values.
  • Match the proton type with its example structure:
    Methyl ↔️ Propane
    Methylene ↔️ Butane
    Methine ↔️ Isopentane
    Aromatic ↔️ Benzene
    Alcohol ↔️ Ethanol
  • What is the example structure provided for methyl protons in the ¹H NMR chemical shift table?
    Propane