MCQOPTIONS
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MCQOPTIONS
This section includes 8 Mcqs, each offering curated multiple-choice questions to sharpen your Biochemistry knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
Internal conversion is where |
| A. | the spin of an excited electron reverses, changing the state of the molecule (from singlet state to triplet state or vice versa) |
| B. | A molecule converts its excess energy to light, and emits a photon |
| C. | A molecule converts excess electronic energy to vibrational energy |
| D. | none of the above |
| Answer» D. none of the above | |
| 2. |
Fluorescence occurs when |
| A. | a molecule returns to the electronic ground state from an excited triplet state by losing it's excess energy as a photon |
| B. | a molecule returns to the electronic ground state from an excited singlet state by losing it's excess energy as a photon |
| C. | a molecule lowers its vibrational energy by losing it's excess energy as a photon |
| D. | none of the above |
| Answer» C. a molecule lowers its vibrational energy by losing it's excess energy as a photon | |
| 3. |
What is the relationship between wavelength and wave number? |
| A. | Wavenumber = 1 / wavelength in centimeters |
| B. | Wavenumber - wavelength in nanometers = 1 |
| C. | Wavelength in nanometers x wavenumber = 1 |
| D. | None of the above |
| Answer» B. Wavenumber - wavelength in nanometers = 1 | |
| 4. |
In the intersystem crossing |
| A. | the spin of an excited electron reverses, changing the state of the molecule (from singlet state to triplet state or vice versa) |
| B. | a molecule converts its excess energy to light, and emits a photon |
| C. | a molecule converts excess electronic energy to vibrational energy |
| D. | all of the above |
| Answer» B. a molecule converts its excess energy to light, and emits a photon | |
| 5. |
Why must the radiation source for fluorescence spectrometry be more powerful than for absorption spectroscopy? |
| A. | Because the magnitude of the output signal is proportional to the power of the incident radiation |
| B. | Because the sample won't fluoresce if the incident radiation is of low power |
| C. | To allow for scattering by the sample |
| D. | None of the above |
| Answer» B. Because the sample won't fluoresce if the incident radiation is of low power | |
| 6. |
Why do fluorescence spectrometers often use double-beam optics? |
| A. | So a reference solution can be used |
| B. | To compensate for beam attenuation by the monochromator |
| C. | To compensate for power fluctuations in the radiation source |
| D. | All of the above |
| Answer» D. All of the above | |
| 7. |
For a molecule to absorb IR, why must the molecule's vibrations cause fluctuations in the dipole moment of the molecule? |
| A. | Because a change in dipole moment lowers the energy required for electronic transitions |
| B. | Because for absorption to occur, the radiation must interact with the electric field caused by changing dipole moment |
| C. | Because fluctuations in the dipole moment allow the molecule to deform by bending and stretching |
| D. | All of the above |
| Answer» C. Because fluctuations in the dipole moment allow the molecule to deform by bending and stretching | |
| 8. |
Why phosphorescence measurements are usually made at a low temperature? |
| A. | To prevent thermal degradation of the phosphorescent species |
| B. | To promote phosphorescence by slowing the rate of radiationless transfer processes |
| C. | To increase the efficiency of the detector |
| D. | To decease the efficiency of detector |
| Answer» C. To increase the efficiency of the detector | |