P5B.9* K. Sato, E.R. Eirich, and J.E. Mark (J. Polymer Sci., Polym. Phys. 14, 619 (1976)) have reported the data in the table below for the osmotic pressures of polychloroprene (p = 1.25 g cm) in...

P5B.9* K. Sato, E.R. Eirich, and J.E. Mark (J. Polymer Sci., Polym. Phys. 14, 619<br>(1976)) have reported the data in the table below for the osmotic pressures<br>of polychloroprene (p = 1.25 g cm) in toluene (p = 0.858 g cm³) at 30°C.<br>Determine the molar mass of polychloroprene and its second osmotic virial<br>coefficient.<br>c/(mg cm)<br>1.33<br>2.10<br>4.52<br>7.18<br>9.87<br>I1/(N m)<br>30<br>51<br>132<br>246<br>390<br>

Extracted text: P5B.9* K. Sato, E.R. Eirich, and J.E. Mark (J. Polymer Sci., Polym. Phys. 14, 619 (1976)) have reported the data in the table below for the osmotic pressures of polychloroprene (p = 1.25 g cm) in toluene (p = 0.858 g cm³) at 30°C. Determine the molar mass of polychloroprene and its second osmotic virial coefficient. c/(mg cm) 1.33 2.10 4.52 7.18 9.87 I1/(N m) 30 51 132 246 390

Jun 09, 2022

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P5B.9* K. Sato, E.R. Eirich, and J.E. Mark (J. Polymer Sci., Polym. Phys. 14, 619 (1976)) have reported the data in the table below for the osmotic pressures of polychloroprene (p = 1.25 g cm) in...

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