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BEGIN:VEVENT
DTSTART:20131024T090000
DTEND:20131024T100000
SUMMARY:CERE Seminar
DESCRIPTION:<p><strong>CERE Seminar by Georgios Kontogeorgis </strong></p>\n<p><strong>"Smart Water &ndash; Impressions from a recent book and more"</strong></p>\n<p><b></b></p>\n<p>Abstract:</p>\n<p>Water is earth&rsquo;s most important substance and at the same time the least understood one. Despite its significance, many of water&rsquo;s mysteries and anomalous behaviors have as yet not been well understood.&nbsp; In some cases, they are not understood at all. In other cases, prevailing explanations may not be the correct ones. This summer I have read the latest book of professor Gerald H. Pollack on &ldquo;The Fourth Phase of Water&rdquo;. In this book presents professor Pollack an inspiring, convincing (maybe true?) theory which can explain much of water&rsquo;s behavior and associated phenomena. Professor Pollack&rsquo;s theory challenges many of the established theories regarding water and colloid &amp; surface science e.g. DLVO theory and offers alternative explanations for numerous everyday and engineering phenomena/challenges e.g. for the density maximum of water at 4 <sup>o</sup>C, the capillary rise, the freezing of warm water, why pure and salt water do not easily mix and for the optimum ethanol-water ratio for making vodka. And for much more.</p>\n<p>With the &ldquo;polywater&rdquo; and &ldquo;water memory&rdquo; myths (are they really myths?) being still remembered, one may be tempted to dismiss any new attempt to understand water, which deviates from the traditional thinking. Still, prof. Pollack&rsquo;s electrical theory is exciting to say the least!</p>\n<p>In this presentation, I will present the new theory and illustrate how it claims to explain some of the special features of water. I will also present my point of view and compare the new theory with prevailing theories in this field. Then I will discuss in the same context some of the limitations or challenges of existing thermodynamic theories for water. And maybe give a hint or two on what should or could be done to provide some answers.</p>
X-ALT-DESC;FMTTYPE=text/html:<p><strong>CERE Seminar by Georgios Kontogeorgis </strong></p>\n<p><strong>"Smart Water &ndash; Impressions from a recent book and more"</strong></p>\n<p><b></b></p>\n<p>Abstract:</p>\n<p>Water is earth&rsquo;s most important substance and at the same time the least understood one. Despite its significance, many of water&rsquo;s mysteries and anomalous behaviors have as yet not been well understood.&nbsp; In some cases, they are not understood at all. In other cases, prevailing explanations may not be the correct ones. This summer I have read the latest book of professor Gerald H. Pollack on &ldquo;The Fourth Phase of Water&rdquo;. In this book presents professor Pollack an inspiring, convincing (maybe true?) theory which can explain much of water&rsquo;s behavior and associated phenomena. Professor Pollack&rsquo;s theory challenges many of the established theories regarding water and colloid &amp; surface science e.g. DLVO theory and offers alternative explanations for numerous everyday and engineering phenomena/challenges e.g. for the density maximum of water at 4 <sup>o</sup>C, the capillary rise, the freezing of warm water, why pure and salt water do not easily mix and for the optimum ethanol-water ratio for making vodka. And for much more.</p>\n<p>With the &ldquo;polywater&rdquo; and &ldquo;water memory&rdquo; myths (are they really myths?) being still remembered, one may be tempted to dismiss any new attempt to understand water, which deviates from the traditional thinking. Still, prof. Pollack&rsquo;s electrical theory is exciting to say the least!</p>\n<p>In this presentation, I will present the new theory and illustrate how it claims to explain some of the special features of water. I will also present my point of view and compare the new theory with prevailing theories in this field. Then I will discuss in the same context some of the limitations or challenges of existing thermodynamic theories for water. And maybe give a hint or two on what should or could be done to provide some answers.</p>

URL:https://www.cere.dtu.dk/da/Calendar/2013/10/CERE-Seminar-5-
DTSTAMP:20260713T050700Z
UID:{8F9D8843-528D-464E-B6A5-D6E7ACBA3E2E}-20131024T090000-20131024T090000
LOCATION: Building 229, room 003
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