Spectrometry:
The main forms of spectrometry are the mass spectrometry, Ion-mobility spectrometry, neutron triple-axis spectrometry, and Rutherford backscattering spectrometry. These types of the spectrum do not mean intensity against frequency. In spectrometry, the instruments are used called spectrometers. The function of all kinds of instruments relies on the type of spectrometry employ in the device. Spectrophotometry is the quantitative measure of the transmission or reflection properties of every substance in the form of wavelength. The spectrometry refers to the technique, use, and how spectroscopy is measured; the techniques include mass spectrometry where there is energy but not light.
The main forms of spectrometry are the mass spectrometry, Ion-mobility spectrometry, neutron triple-axis spectrometry, and Rutherford backscattering spectrometry. These types of the spectrum do not mean intensity against frequency. In spectrometry, the instruments are used called spectrometers. The function of all kinds of instruments relies on the type of spectrometry employ in the device. Spectrophotometry is the quantitative measure of the transmission or reflection properties of every substance in the form of wavelength. The spectrometry refers to the technique, use, and how spectroscopy is measured; the techniques include mass spectrometry where there is energy but not light.
Spectroscopy:
Spectroscopy and spectrometry are related words in analytical chemistry. Spectroscopy is the learning about interactions amongst substance and radiated energy. It can be understood as the science of the radiation and substance interaction study. To know spectroscopy, should know the spectrum. The visible light is a type of electromagnetic wave. Types of electromagnetic waves, i.e. ultraviolet (UV), infrared (IR), X-rays, microwaves, and radio waves this energy of waves relies on the frequency. The amount of energy is high of high-frequency waves, whereas low-frequency waves have less energy. Light waves generated the energy recognized as photons. The energy of a photon is fixed for a monochromatic ray. The electromagnetic spectrum is the plot of frequency against the intensity of the photon. While a beam of the entire range of waves goes through a sample of gas or liquid, then in these materials the bond or the electron beam absorbs some photons. This is because of the quantum mechanical effect that just some energy-containing photons are absorbed.
You may also like this
Difference between Chromatography and Spectroscopy
Difference between UV and PDA Detector in HPLC
Difference between C8 and C18 column in HPLC
Difference between paper and column chromatography
Difference between IR and FTIR
Difference between UV and IR Spectroscopy
Difference between HPLC and GC
Difference between HPLC and HPTLC
Difference between HPLC and TLC
Difference between gas chromatography and liquid chromatography
Difference between normal and reversed-phase chromatography
Difference between IR and FTIR
Difference between IR and NMR Spectroscopy
Difference between isocratic and gradient elution
Difference between NMR and IR spectroscopy
Difference between Absorption and Emission Spectrum
Difference between NMR and IR spectroscopy
Difference between UV and IR Spectroscopy
Difference between HPLC and LCMS
Difference between Chromatography and Spectroscopy
Difference between UV and PDA Detector in HPLC
Difference between C8 and C18 column in HPLC
Difference between paper and column chromatography
Difference between IR and FTIR
Difference between UV and IR Spectroscopy
Difference between HPLC and GC
Difference between HPLC and HPTLC
Difference between HPLC and TLC
Difference between gas chromatography and liquid chromatography
Difference between normal and reversed-phase chromatography
Difference between IR and FTIR
Difference between IR and NMR Spectroscopy
Difference between isocratic and gradient elution
Difference between NMR and IR spectroscopy
Difference between Absorption and Emission Spectrum
Difference between NMR and IR spectroscopy
Difference between UV and IR Spectroscopy
Difference between HPLC and LCMS
No comments:
Post a Comment