Spectrum absorption atomic

The atomic absorption spectrum for Na is shown in Figure 10.19 and is typical of that found for most atoms. The most obvious feature of this spectrum is that it consists of a few, discrete absorption lines corresponding to transitions between the ground state (the 3s atomic orbital) and the 3p and 4p atomic orbitals. Absorption from excited states, such as that from the 3p atomic orbital to the 4s or 3d atomic orbital, which are included in the energy level diagram in Figure 10.18, are too weak to detect. Since the... 

Figure 3.5 The hydrogen atom absorption spectrum and the named sequences. (Reproduced by permission of Pearson Publishing)...

What is an absorption spectrum What is the difference between a molecular absorption spectrum and an atomic absorption spectrum and why does this difference exist ... 

What is a line spectrum Why is an atomic absorption spectrum a line spectrum ... 

An absorption spectrum is the plot of absorbance vs. wavelength—the unique pattern of absorption useful for qualitative analysis. A molecular absorption spectrum is of the continuous variety, while an atomic absorption spectrum is a line spectrum. Only specific wavelengths get absorbed by atoms because only specific energy transitions are possible (no vibrational transitions—only electronic). Both vibrational and electronic are possible with molecules, and thus all wavelengths get absorbed to some degree. 

Describe how a deuierium lamp can be used to provide a background corrccl < n for an atomic absorption spectrum. 

Figure 8 The atomic absorption spectrum of lead and the molecular spectrum of ethanal...

Figure B2.5.12 shows the energy-level scheme of the fine structure and hyperfme structure levels of iodine. The corresponding absorption spectrum shows six sharp hyperfme structure transitions. The experimental resolution is sufficient to detennine the Doppler line shape associated with the velocity distribution of the I atoms produced in the reaction. In this way, one can detennine either the temperature in an oven—as shown in Figure B2.5.12 —or the primary translational energy distribution of I atoms produced in photolysis, equation B2.5.35.

Information about the structure of a molecule can frequently be obtained from observations of its absorption spectrum. The positions of the absorption bands due to any molecule depend upon its atomic and electronic configuration. To a first approximation, the internal energy E oi a, molecule can be regarded as composed of additive contributions from the electronic motions within the molecule (Et), the vibrational motions of the constituent atoms relative to one another E ), and the rotational motion of the molecule as a whole (Ef) ... 

Another feature of the spectrum shown in Figure 10.19 is the narrow width of the absorption lines, which is a consequence of the fixed difference in energy between the ground and excited states. Natural line widths for atomic absorption, which are governed by the uncertainty principle, are approximately 10 nm. Other contributions to broadening increase this line width to approximately 10 nm. 

Molecules and atoms interact with photons of solar radiation under certain conditions to absorb photons of light of various wavelengths. Figure 10-4 shows the absorption spectrum of NO2 as a function of the wavelength of light from 240 to 500 nm. This molecule absorbs solar radiation from... 

That the ind-N atom in the anhydro-bases is the basic center is also obvious from a consideration of the ultraviolet absorption spectra of the anhydro-bases. In aqueous 0.1 A hydrochloric acid as well as in neutral alcoholic solutions each carboline anhydro-base gives rise to an ultraviolet absorption spectrum identical with that of the parent carbolinium salt. In alkaline solutions (pH above 11.5 in the case of the... 

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