Question

The absorbance of `2` x `10^-4` `M` solution was found to be `0.123` when placed in a cell of `1` `cm` length. Calculate the transmittance, percent transmittance and molar absorptivity of a cell of length `2` `cm`?

Answer 1

`T=0.568`
`%T=56.8%`
`epsilon=615M^(-1)*cm^(-1)`

Explanation:

`C=2xx10^(-4)M`
`A=0.123`
`l=2cm`
`?T`, `?%T`, `?epsilon`

The relationship between transmittance `T` and absorbance is:

`A=-logT=>T=10^(-A)`

Since the length of the cell was increased to `l=2cm`, the absorbance will double and therefore, `A_2=2xx0.123=0.246`

`=>T=10^(-0.246)=0.568`

Therefore, `%T=100xxT=100xx0.568=56.8%`

In order to solve for the molar absorptivity `epsilon`, we will use the Beer-Lambert law:

`A=epsilonxxlxxC=>epsilon=A/(lxxC)`

`epsilon=(0.123)/(1cmxx2xx10^(-4)M)=615M^(-1)*cm^(-1)`

Here is a video that explains Beer-Lambert law and it use experimentally:
AP Chemistry Investigation #1: Beer-Lambert Law.