Spectroscopy Utilizes the various regions of the electromagnetic spectrum to detect signal.

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Presentation transcript:

Spectroscopy Utilizes the various regions of the electromagnetic spectrum to detect signal

Different regions  rays result from nuclear transitions Scintillation counting,  ray emission, radioactive assays, and DNA fingerprinting X-rays result from inner e- transitions x-ray powder diffraction UV results from changes in bonding e- UV spectroscopy Visible also from bonding e- transitions visible spectroscopy

Different Regions Microwave results from rotation of molecules microwave absorption and e- spin resonance Radio results from spin of nuclei in magnetic field NMR IR results from vibration and rotation of molecules IR and Raman spectroscopy

Frequency: # of oscillations to the field per second Frequency: # of oscillations to the field per second Wavelength: Distance between any 2 equal points on wave Wavelength: Distance between any 2 equal points on wave Wavenumber: 1/ = n Wavenumber: 1/ = n

Transmittance: Transmittance: T = P/PoT = P/Po Where: Po = initial power of beam P = power of beam passing through sample %T = P/Po x 100 A = -logT A = bc The thicker the glass the darker the brew, the less the light that shines through