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<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2>Steve,</FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2></FONT></SPAN> </DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2>SEDNTERP does those calculations for you, but if you want the actual
tabular values from the Handbook of Chemistry and Physics I've pasted those in
below.</FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2></FONT></SPAN> </DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2>John</FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2>---------------------------</FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff size=2>These
are viscosity relative to 20 C (in 3rd column, second is density, first is
molarity). For absolute viscosity multiply by 1.002.</FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2></FONT></SPAN> </DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2>0 0.998234 1.00000<BR>0.017 0.998900 1.00200<BR>0.069 1.001100 1.00700<BR>0.120 1.003200 1.01300<BR>0.172 1.005300 1.01800<BR>0.224 1.007500 1.02300<BR>0.276 1.009600 1.02800<BR>0.329 1.011700 1.03200<BR>0.382 1.013900 1.03700<BR>0.435 1.016000 1.04200<BR>0.488 1.018200 1.04700<BR>0.541 1.020300 1.05100<BR>0.577 1.021800 1.05500<BR>0.631 1.023900 1.05900<BR>0.685 1.026100 1.06400<BR>0.739 1.028200 1.06900<BR>0.794 1.030400 1.07400<BR>0.848 1.032600 1.07900<BR>0.921 1.035500 1.08700<BR>1.032 1.039800 1.09800<BR>1.144 1.044200 1.10900<BR>1.256 1.048600 1.12200<BR>1.369 1.053000 1.13400<BR>1.484 1.057400 1.14700<BR>1.599 1.061800 1.16100<BR>1.715 1.066200 1.17600<BR>1.832 1.070700 1.19100<BR>2.129 1.081900 1.23300<BR>2.432 1.093200 1.28000<BR>2.741 1.104700 1.33100<BR>3.270 1.124000 1.42100<BR>3.928 1.147800 1.55400<BR>4.613 1.172100 1.74200<BR>5.326 1.197200 1.98600<BR></FONT></SPAN></DIV>
<DIV><SPAN class=243254521-16122006><FONT face=Arial color=#0000ff
size=2></FONT></SPAN> </DIV>
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<DIV></DIV>
<DIV class=OutlookMessageHeader lang=en-us dir=ltr align=left><FONT
face=Tahoma size=2>-----Original Message-----<BR><B>From:</B>
rasmb-bounces@rasmb.bbri.org [mailto:rasmb-bounces@rasmb.bbri.org] <B>On
Behalf Of </B>Harding Stephen<BR><B>Sent:</B> Saturday, December 16, 2006
11:46 AM<BR><B>To:</B> rasmb@rasmb.bbri.org<BR><B>Subject:</B> [RASMB]
Viscosity of NaCl solutions<BR><BR></FONT></DIV><!-- Converted from text/plain format -->
<P><FONT size=2>Dear all,<BR>sorry for the trivial nature of this request but
does anyone have at hand a table of the (kinematic or dynamic) viscosity of
NaCl as a function of molar conc.<BR>Thanks<BR>Steve<BR><BR>Prof. Stephen
Harding<BR>University of Nottingham<BR>Sutton Bonington<BR>LE12 5RD, UK<BR><A
href="http://www.nottingham.ac.uk/ncmh">http://www.nottingham.ac.uk/ncmh</A><BR><BR><BR></FONT></P><BR>
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