Sartorius la series Operating Instructions Manual page 70

Electronic analytical and precision balances masterpro series

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Operating instructions manual (149 pages)

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Equations Used to Determine Density:

Buoyancy:

Rho = (Wa x (Rhofl – LA)) ÷ ((Wa – Wfl) x Corr) + LA

For the buoyancy method, a factor of 0.99983 (factory

setting) is used to allow for the buoyancy caused by the bars

of the sample holder of the YDK 01 (LP) Density Determination

Kit. This factor is yielded by allowing for this equation:

buoyancy of bars = 2 x d

The equation takes the following variables into consideration:

the number of wires or bars, the wire/bar diameter of the

sample holder, and the inner diameter of the vessel used.

The factor 0.99983 is yielded by 1 – 2 x d

where:

2 = number of wires/bars

d = wire/bar diameter (0.7 mm*)

D = inner diameter of the vessel (76 mm*)

If you are using different vessels or other density kits, press

the

Param.

calculation factor.

To determine the density of a solid according to the buoyancy

method with our YDK 01 (LP) Density Determination Kit, make

sure to use the beaker with a 76 mm diameter.

Displacement: Rho = (Wa x (Rhofl – LA)) ÷ (Wfl x Corr) + LA

For the displacement method, a factor of 1.00000 (factory

setting) is used to allow for the buoyancy caused by a wire

suspended in the liquid.

If you are using different vessels or other density kits, press

the

Param.

calculation factor.

The equation takes the following variables into consideration:

the number of wires or bars, the wire/bar diameter of the

sample holder, and the inner diameter of the vessel used.

This factor is yielded by: Corr = 1 – χ x d

where:

χ = number of wires

d = wire diameter

D = inner diameter of the vessel

with:

Rhofl = density of the reference liquid

Wa = weight of sample in air

Wfl = weight of the sample in liquid/buoyancy of sample

Corr = correction for buoyancy produced by the immersed

wires or bars of the sample holder:

0.99983 for the buoyancy method

1 for the displacement method

= correction for air buoyancy = 0.0012 g/ccm

Pycnometer:

Rho = (Wa x (Rhofl – LA)) ÷ (Wfl + Wa – Wr) + LA

where:

Rhofl = density of the reference liquid

Wa = weight of the sample

Wfl = weight of the reference liquid

Wr = weight of sample + the reference liquid

= correction for air buoyancy = 0.0012 g/ccm

* For the YDK 01 (LP) Density Determination Kit

÷ D

(Wa – Wfl)

soft key to enter any necessary changes in this

÷ D

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