Metrohm 757 VA Computrace User Manual

5.8 Data processing and evaluation

757 VA Computrace – Software

119

Std.dev.(n) Standard deviation of the individual value

EV(n) = s(n)

c(n) – c(s)

Difference in the mass concentrations
between the spiked sample

n and the

original sample solution

3.

Determination of standard addition curve
For the calculation of the linear standard addition curve, the
parameters

a and b of the linear regression curve y = a + bx

are calculated by weighted least square minimization with
y = EV and x = c – c(s). The weight factor for each point is
the standard deviation obtained from the replications. The pa-
rameters

a and b are displayed in the

RESULTS

window and

have the following meaning:

a = Y.reg/offset Intercept of std.add. curve
b = Slope

Slope of std.add. curve

4.

Calculation of mass concentration c(s)
A requirement for the use of the standard addition is that
when

c = 0 the evaluation quantity EV = 0. If 0 is substituted

for these two quantities in the calibration function, the sought
mass concentration

c(s) can be calculated from the equation:

c(s) = a / b

In the graphical representation of the standard addition curve,
the sought mass concentration on the x-axis is given by the
distance between the zero point and the intersection point
with the calibration function.

EV

0

c(s)

c - c(s)

Y.reg/offset

Sample

Standard additions

Slope

5.

Calculation of result deviation MC.dev.
The total deviation of the calculated substance mass concen-
tration Mass.conc. is determined using a linear error calcu-
lation. Independent of the number of measurements, the total
deviation MC.dev. is always calculated in a way that
Mass.conc. ± MC.dev. gives the range in which the mass
concentration may be expected with a probability of 68.3%.