Absorbance and Stray light helppp

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The discussion revolves around calculating stray light (Ps) as a percentage of incident light (Po) in a spectrophotometric experiment involving a weak acid solution. The user has provided an apparent absorbance (A(app)) of 0.047, a concentration of 2.00 x 10^-6 M, and a cell length of 1 cm. They have calculated the transmittance (T) using the formula A = -log T, resulting in T = 0.8974. The user is attempting to relate transmittance to the stray light and is currently facing difficulty due to having two unknowns in the equation. They seek advice on how to proceed with the calculation. The context includes measurements of apparent absorbance at various pH levels, indicating that the experiment involves analyzing the behavior of the weak acid across different pH conditions. The discussion emphasizes the need for further guidance on resolving the equation to find the stray light percentage.
atomicblast
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Hi, I've a chem assignment in which I've to calculate the stray light, Ps as a percentage of the incident light, Po.

Given the apparent absorbance A(app) 0.047, concentration of the solution 2.00 x 10pwr-6, cell length of 1cm, activity coefficients = 1.

I calculated the transmittance to be A = -log T , where T = 0.8974

T = P + Ps / Po + Ps = 0.8974
T = P / Po = 0.8974

I'm stuck after that with 2 unknowns in the equation. Could someone advice me on this?

Thanks a lot!
 
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It would help (yourself) a great deal if you could describe the experiment involved.
 
Okie, this is the question given:

The apparent absorbance of a solution of a weak acid, HA, was measured at different pH values (you may assume the pH meter was correctly calibrated, that activity coefficients are unity throughout, and that concentrations are reliable. A 1.00cm cell was used. None of the buffers used absorbs at the wavelength used. Results were as follows:

Concentration, M - 2.00 x 10pwr-6

Apparent Absorbance:
0.047 at pH 2,
0.045 at pH 4,
0.018 at pH 6,
0.010 at pH 8,
0.009 at pH 10

1) Calculate the stray light, Ps, as a percentage of the incident light, Po, in the spectrophotometer used.


Thanks again! :smile:
 

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