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conductometrie

Conductometry is a method used to measure the electrical conductivity of a liquid in order to assess its ionic content and to monitor chemical processes. A conductometer applies a small electrical signal between electrodes immersed in the solution and records the resulting conductance, which depends on the concentration and mobility of ions present.

Conductivity, denoted by κ, describes a solution’s ability to conduct electric current and is influenced by ion

Instrumentation typically involves a conductometer with a two-electrode conductivity cell (frequently made of platinum or graphite)

Applications include assessing total dissolved solids in water, monitoring chemical reactions (notably conductometric titrations) and reaction

Advantages of conductometry are its speed, non-destructive nature, and simplicity, with minimal sample preparation. Limitations include

concentrations
and
mobilities.
It
can
be
expressed
as
κ
=
sum
ci
λi,
where
ci
is
the
molar
concentration
and
λi
is
the
molar
ionic
conductivity.
At
infinite
dilution,
κ
approaches
Λm0
c.
In
practice,
a
conductance
meter
provides
a
measured
conductance
G
that
relates
to
conductivity
through
the
cell
constant
K:
G
=
κ
×
K.
The
conductivity
value
is
then
derived
as
κ
=
G
/
K.
Temperature
compensation
is
commonly
employed,
and
results
are
often
reported
at
a
reference
temperature
such
as
25
°C.
connected
to
a
meter.
Modern
instruments
include
temperature
sensors
(thermistor
or
Pt100)
and
automatic
temperature
compensation.
Some
setups
use
four-electrode
cells
to
reduce
polarization
errors.
progress,
evaluating
ionic
strength
and
solution
purity,
and
supporting
process
control
in
chemical
manufacturing
and
food
and
beverage
industries.
non-specific
measurements
(no
speciation),
sensitivity
to
temperature
and
ionic
strength,
need
for
careful
calibration,
and
potential
deviations
at
high
ionic
strengths
or
in
non-ionic
systems.