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Wavelengths calculating

Table 7.9 Electronic Absorption Bands for Representative Chromophores Table 7.10 Ultraviolet Cutoffs of Spectrograde Solvents Table 7.11 Absorption Wavelength of Dienes Table 7.12 Absorption Wavelength of Enones and Dienones Table 7.13 Solvent Correction for Ultraviolet-Visible Spectroscopy Table 7.14 Primary Bands of Substituted Benzene and Heteroaromatics Table 7.15 Wavelength Calculation of the Principal Band of Substituted Benzene Derivatives... Table 7.9 Electronic Absorption Bands for Representative Chromophores Table 7.10 Ultraviolet Cutoffs of Spectrograde Solvents Table 7.11 Absorption Wavelength of Dienes Table 7.12 Absorption Wavelength of Enones and Dienones Table 7.13 Solvent Correction for Ultraviolet-Visible Spectroscopy Table 7.14 Primary Bands of Substituted Benzene and Heteroaromatics Table 7.15 Wavelength Calculation of the Principal Band of Substituted Benzene Derivatives...
TABLE 7.15 Wavelength Calculation of the Principal Band of Substituted Benzene Derivatives In ethanol. [Pg.713]

Einstein coefficient of absorption for the pump wavelength calculated as B 531 In(lO) / where c is the velocity of light and is Avogadro s number. Other details of the modeling may be found in reference 3. [Pg.193]

Table III. CORRELATION COEFFICIENTS FOR IRON ABSORPTION OF THE HOMOLOGOUS SET AT SEVERAL WAVELENGTHS CALCULATED FROM PRIMARY ABSORBANCE DATA AND FROM 1ST AND 2nd DERIVATIVE TRANSFORMS... Table III. CORRELATION COEFFICIENTS FOR IRON ABSORPTION OF THE HOMOLOGOUS SET AT SEVERAL WAVELENGTHS CALCULATED FROM PRIMARY ABSORBANCE DATA AND FROM 1ST AND 2nd DERIVATIVE TRANSFORMS...
Figure 4. Correlation coefficients of total iron content as a function of wavelength calculated from absorbance and its first and second derivatives, a) data for the homologous sample set. b) the full sample set. The correlation coefficients are superposed on the spectrum of the 100 % Fe SWy in a and on the 100% Fe Otay in b for comparison. Figure 4. Correlation coefficients of total iron content as a function of wavelength calculated from absorbance and its first and second derivatives, a) data for the homologous sample set. b) the full sample set. The correlation coefficients are superposed on the spectrum of the 100 % Fe SWy in a and on the 100% Fe Otay in b for comparison.
Figure 3. The drawn curves represent the reduced absorption coefficient k/[Nap as a function of wavelength, calculated for 2000 K from Table III of Ref. 14, using Eq. 1, and adding 1050 cm to all transition frequencies. The spectrum has been folded with a Gaussian curve 7 nm wide (FWHM) to smooth the satellites. The four contributions from the four optically allowed Na ... Figure 3. The drawn curves represent the reduced absorption coefficient k/[Nap as a function of wavelength, calculated for 2000 K from Table III of Ref. 14, using Eq. 1, and adding 1050 cm to all transition frequencies. The spectrum has been folded with a Gaussian curve 7 nm wide (FWHM) to smooth the satellites. The four contributions from the four optically allowed Na ...
Which wave has the longer wavelength Calculate the wavelength. Which wave has the higher frequency and larger photon energy Calculate these values. Which wave has the faster velocity What type of electromagnetic radiation is illustrated 0 ( ... [Pg.574]

A solution containing 2 g/liter of a light-absorbing substance in a 1 cm cuvette transmits 75% of the incident light of a certain wavelength. Calculate the transmission of a solution containing (a) 4 g/liter, (b) 1 g/liter, (c) 6 g/liter, and (d) 5.4 g/liter. (e) If the molecular weight of the compound is 250, calculate... [Pg.329]

Suppose photons of green light (wavelength 5.3 X 10 m) are used to locate the position of the baseball from Example 4.5 with precision of one wavelength. Calculate the minimum spread in the speed of the baseball. [Pg.140]

M. Adachi and S. Nakamura, Comparison of the INDO/S and the CNDO/S method for the absorption wavelength calculation of organic dyes, Dyes and Pigments 17, 287-296 (1991). [Pg.257]

Fig. 15 Sensitivity of the real propagation constant (—) and effective index (---) of a surface plasmon on a metal-dielectric interface to a bulk refractive index change as a function of wavelength calculated rigorously from eigenvalue equation and using the perturbation theory. Waveguiding structure gold-dielectric (nj = 1.32)... Fig. 15 Sensitivity of the real propagation constant (—) and effective index (---) of a surface plasmon on a metal-dielectric interface to a bulk refractive index change as a function of wavelength calculated rigorously from eigenvalue equation and using the perturbation theory. Waveguiding structure gold-dielectric (nj = 1.32)...
Fig. 29 TM reflectivity as a function of wavelength calculated for two different angles of incidence using the rigorous Fresnel reflection theory. Conflguration BK7 glass, gold fllm (thickness 48 nm for the wavelength of 650 nm and 50 nm for the wavelength of 850 nm), water... Fig. 29 TM reflectivity as a function of wavelength calculated for two different angles of incidence using the rigorous Fresnel reflection theory. Conflguration BK7 glass, gold fllm (thickness 48 nm for the wavelength of 650 nm and 50 nm for the wavelength of 850 nm), water...
From the unknown absorbances at the two wavelengths, calculate the parts per million of Cr and Mn in your unknown using Beer s law for the mixture and the determined constants. Use a spreadsheet similar to the one given in Chapter 16 and in your CD to perform the mixture calculation. The calculated results will have the same units as used in determining the constants. Keep in mind the dilutions made. Report the results for each portion analyzed. [Pg.773]

Figure 3.112 shows the extinction coefficient in relation to the wavelength calculated according to Beer-Lambert s Law (/ = Figure 3.113 depicts an infrared scan of an ETFE at a thickness of 0.025 mm. Table 3.83 provides a select list of ETFE transmittance at different wavelengths in the ultraviolet and visible light regions. [Pg.100]

Plot against wavelength. Calculate the absorbance at 254 nm of a 10.0 cm gas cell containing pure ozone at a pressure of 100.0 Pa at 298 K. (Hint Use the ideal gas equation to convert gas pressure to gas concentration.)... [Pg.397]

If the uncertainty in locating a particle moving in one dimension is equal to its de Broglie wavelength, calculate the fractional uncertainty in its velocity, Av/v. [Pg.46]

See other pages where Wavelengths calculating is mentioned: [Pg.125]    [Pg.26]    [Pg.68]    [Pg.651]    [Pg.141]    [Pg.30]    [Pg.83]    [Pg.164]    [Pg.190]    [Pg.192]    [Pg.25]    [Pg.112]    [Pg.180]    [Pg.623]    [Pg.88]    [Pg.497]    [Pg.93]    [Pg.21]    [Pg.27]    [Pg.11]    [Pg.331]    [Pg.227]    [Pg.236]    [Pg.52]    [Pg.605]    [Pg.759]    [Pg.343]   
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