2. Calculate the concentration of two absorbing compounds, A and B, if the absorbance of this...

Calculate the molar concentration of a solution that has a measured absorbance of 0.635 using a...

Calculate the molar concentration of a solution that has a measured absorbance of 0.635 using a 1-cm pathlength cuvette and an extinction coefficient of 46,000.0 M-1cm-1.

The absorbance of a chemical solution is 0.5 at 400 nm. The concentration of the solution...

The absorbance of a chemical solution is 0.5 at 400 nm. The concentration of the solution is 50 mM. The pathlength of the cuvette is 1 cm. What is the molar absorptivity of the chemical at this wavelength?

25.0 ml C solution is diluted to 50.0 ml and the absorbance is 0.416 in 348...

25.0 ml C solution is diluted to 50.0 ml and the absorbance is 0.416 in 348 nm in a 1.00-cm cuvette. 25.0 ml second solution is added 10.0 ml solution that contains 23.4 ppm of C. After diluted to 50.0 ml this solution has absorbance 0.610 in the same cuvette and wavelength. Calculate concentration (ppm) C in sample.

An unknown amount of a compound with a molecular mass of 259.61 g/mol is dissolved in...

An unknown amount of a compound with a molecular mass of 259.61 g/mol is dissolved in a 10-mL volumetric flask. A 1.00-mL aliquot of this solution is transferred to a 25-mL volumetric flask and enough water is added to dilute to the mark. The absorbance of this diluted solution at 347 nm is 0.525 in a 1.000-cm cuvette. The molar absorptivity for this compound at 347 nm is ε347 = 6557 M–1 cm–1. (a) What is the concentration of the...

In a protein, the spectrum in a 1 cm cuvette has an absorbance of 0.717 at...

In a protein, the spectrum in a 1 cm cuvette has an absorbance of 0.717 at 240 nm, and 0.239 at 280 nm. Assuming that these absorptions come from the aromatic Trp (ε240 = 1,960 M-1cm-1, ε280 = 5,380 M-1cm-1) and Tyr (ε240 = 1,500 M-1cm-1, ε280 = 11,300 M-1cm-1) residues, calculate the Tyrosine concentration. (Answer is 58 μM).

A 0.26 M solution of compound "B" is measured in a 1.00 cm path length cuvette...

A 0.26 M solution of compound "B" is measured in a 1.00 cm path length cuvette at a wavelength of 565 nm. The percentage of light transmitted through the cell is 44%. What is the molar absorbance of this sample at 565 nm (in units of mol-1 cm-1)?

An acid-base indicator, HIn, dissociates according to the following reaction in an aqueous solution. HIn---> In-...

An acid-base indicator, HIn, dissociates according to the following reaction in an aqueous solution. HIn---> In- + H+ . The protonated form of the indicator, HIn, has a molar absorptivity of 3827 M–1·cm–1 and the deprotonated form, In–, has a molar absorptivity of 26210 M–1·cm–1 at 440 nm. The pH of a solution containing a mixture of HIn and In– is adjusted to 5.92. The total concentration of HIn and In– is 0.000117 M. The absorbance of this solution was...

At 280 nm the chemokine CCL19 has an extinction coefficient of 8730 M-1cm-1. A solution of...

At 280 nm the chemokine CCL19 has an extinction coefficient of 8730 M-1cm-1. A solution of CCL19 is diluted 50 fold. After dilution (in a cuvette with a 1 cm pathlength) the absorbance at 280 nm is 0.112. What is the concentration of the undiluted CCL19 solution? 978 M 1.28 X 10^-5 M 641 µM 1.00 x 10^6 mM

a.If a solution of a compound that has a molar absorptivity 45 M–1 cm–1 placed in...

a.If a solution of a compound that has a molar absorptivity 45 M–1 cm–1 placed in a cuvette with a path length of 10 mm has an absorbance of 0.65, what is the molarity of the compound in solution? Show work. b. What would the value of the equilibrium constant be for the formation of FeNCS2+ from Fe3+ and SCN– , if the final equilibrium concentration of [FeNCS2+] = 7.84 x 10–3 M when the solution initially had [Fe3+] =...

A 50 μM solution of chromophore A had an absorbance of 0.861 at 405 nm and...

A 50 μM solution of chromophore A had an absorbance of 0.861 at 405 nm and 0.21 at 610 nm. Chromophore B (50 μM) had an absorbance of 0.352 at 405 mn and 1.26 at 610 nm. An unknown mixture of chromophores A and B yielded absorbances of 0.586 At 405 nm and 0.462 at 610 nm. Assume that the two chromophores do not react with each other, that is the absorbances of the chromophores are additive, and that all...