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3.4 Reliability of the HT experimentation Data: Error
Analysis and Error Propagation

Errors are often associated with a mistake, but in

science errors are not only the result of mistakes but

also of the uncertainty associated with measuring.

The best that can be done is to ensure that the

error is small and to have a reliable estimate of it.

This becomes even more relevant when the data

reported is a calculated value, which depends

on a measurable quantity and its corresponding

uncertainty.

A suitable approach to estimate the error on a

calculated amount is to sum the squares of the

contributions of individual uncertainties, as shown in

Eq. 8.

12

( ) ( )

2

2

( , )

,

,

,

,

( , )

( , )

( , )

;

f x y

f x

f y

f x

x

f y

y

f x y

f x y

f x y

x

y

σ

σ

σ

δ

δ

σ

σ

σ

σ

δ

δ

=

+

=

=

Equations 9–11 were obtained by applying Eq. 8

to the calculation of the uncertainties (σ) on the

corrected optical density (Eq. 9a–9b), the estimated

protein concentration based on UV measurements,

and the calculated bound protein concentration.

Corr

Sample

Blank

Abs

Abs

Abs

=

−

(

)

(

)

Corr

2

2

Sample

Blank

Abs

σ

σ

σ

=

+ −

Where Abs represents the absorbance and σ

represents its uncertainty.

Eq. 8

Eq. 9a

Eq. 9b