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In thermodynamics, the '''ebullioscopic constant''', K<sub>b</sub>, allows one to relate [[molality]] to [[boiling point elevation]]. It is the ratio of the latter to the former:<br />
<br />
<math>\Delta T = i\cdot K_b \cdot m</math><br><br />
i is the Vant Hoff factor. It is determined by whether the solute particles in the solution associate or dissociate.<br />
If all the particles of the solute trimerise (Three associate into one) the Vant hoff factor will be 1/3. If they dissociate into two particles (For example NaCl as solute which breaks into Na<sup>+</sup> and Cl<sup>-</sup>), i=2.<br />
<br />
<math>K_b = RT_b^2/1000L_v</math><br><br />
R - Ideal Gas constant<br><br />
T<sub>b</sub> - Boiling point of liquid.<br><br />
L<sub>v</sub> - Latent heat of vaporisation per gram.<br><br />
<br />
Through the procedure called [[ebullioscopy]], a known constant can be used to calculate an unknown [[molar mass]]. The term "ebullioscopy" comes from the [[Greek language]] and means "boiling measurement." This is related to [[cryoscopy]], which determines the same value from the [[cryoscopic constant]] (of [[freezing point depression]]). <br />
<br />
This property of elevation of boiling point is a colligative property. It means that the property, in this case <math>\Delta T </math> depends on the number of particles dissolved into the solvent and not the nature of those particles.<br />
==Some K<sub>b</sub> values==<br />
*0.512 [[Water (molecule)|Water]] <br />
*5.03 [[Carbon tetrachloride]] <br />
*3.63 [[Chloroform]] <br />
*2.53 [[Benzene]] <br />
*2.34 [[Carbon disulfide]] <br />
*2.02 [[Diethyl ether]] <br />
*5.95 [[Camphor]]<br />
*3.08 [[Acetic acid]]<br />
*2.79 [[Cyclohexane]]<br />
*1.07 [[Ethanol]]<br />
<br />
==See also==<br />
* [[Ebullioscope]]<br />
* [[List of boiling and freezing information of solvents]]<br />
* [[Boiling-point elevation]]<br />
* [[Colligative Properties]]<br />
{{DEFAULTSORT:Ebullioscopic Constant}}<br />
[[Category:Phase transitions]]<br />
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{{Physics-stub}}<br />
{{Chemistry-stub}}<br />
{{Thermodynamics-stub}}</div>en>Rjwilmsi