## Molar Extinction Coefficient

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### Molar Extinction Coefficient

Hi.

Please can someone help me here, as I am confused and I don't want to end up more confused! Thanks in advance!

The extinction coefficient is present in the beer-lambert law (A=ECL). However, how would I calculate the extinction coefficient from a graph where concentration is on the x-axis and optical density on the y-axis? Would I have to work out a gradient? And so, where do I go next to work out the extinction coefficient??

I've tried reading up on the extiction coefficient but I don't seem to find anything which would help me work the extiction coefficient from a graph.

Thankss!!

Please can someone help me here, as I am confused and I don't want to end up more confused! Thanks in advance!

The extinction coefficient is present in the beer-lambert law (A=ECL). However, how would I calculate the extinction coefficient from a graph where concentration is on the x-axis and optical density on the y-axis? Would I have to work out a gradient? And so, where do I go next to work out the extinction coefficient??

I've tried reading up on the extiction coefficient but I don't seem to find anything which would help me work the extiction coefficient from a graph.

Thankss!!

If you solve Beer's law for E you get = A/cl

In your graph you have c on the x-axis, and A is on the y-axis

So the slope of your line (rise over run) is A / c

You'll have to compensate if you've used a path length besides 1cm, otherwise you can ignore l.

If your c on the x-axis is in molar, then your units for E are M-1

You can then take any given A reading, divide by E, and get M

You can also calculate the extinction coefficient- if you can find it check out Protein Science (1995) 4:2411-2423; Pace et al "How to measure and predict the molar adsorption coefficient of a protein".

Good luck!

A = ecl with e = molar extinction coefficient, c = concentration and l = length of the light through the sample

to calculate e you chose on the x-axis the concentration and on the y-axis the absorbance/extinction or whatever you call it.

--> than the slope of that grapgh will be equal to delta y/delta x = A/c = e*l

--> thus your slope in the curve is equal to 2 constants: the molar extinction coefficient and the path of the light through the sample --> e * l

cbourne wrote:Hi there-

If your c on the x-axis is in molar, then your units for E are M-1

You can then take any given A reading, divide by E, and get M

not true: absorbance/extinction has no unit (because it is also equal to I/I(0) --> intensity transmitted/blanc transmittance), thus when c in molarity and l in cm, than the molar extinction coefficient will have the unist M^-1 * cm^-1

### Re: Molar Extinction Coefficient

So if I have this data:

Absorbance _at_ 405nm:

.875

Concentration (M) of Cr(NO3)3 (aq):

.25M

Since you're saying that if l = 1cm (standard curvette), then E = A/C

so then:

.875/.25 = E

E = 3.5?

Absorbance _at_ 405nm:

.875

Concentration (M) of Cr(NO3)3 (aq):

.25M

Since you're saying that if l = 1cm (standard curvette), then E = A/C

so then:

.875/.25 = E

E = 3.5?

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