![SOLVED: The Van-Laar activity coefficient model for a binary mixture is given by the formula: ln(V*) = ln(V1) + (Ax/Bx) / (1 + Bx/Ax) Given Y = 1.40, Y = 1.25, x = SOLVED: The Van-Laar activity coefficient model for a binary mixture is given by the formula: ln(V*) = ln(V1) + (Ax/Bx) / (1 + Bx/Ax) Given Y = 1.40, Y = 1.25, x =](https://cdn.numerade.com/ask_images/6252dc349edf4e0d8df0355357dede20.jpg)
SOLVED: The Van-Laar activity coefficient model for a binary mixture is given by the formula: ln(V*) = ln(V1) + (Ax/Bx) / (1 + Bx/Ax) Given Y = 1.40, Y = 1.25, x =
![Table 1 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar Table 1 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/0b4e610592ffe5443a53149e7d185fe8b3348cb2/4-Table1-1.png)
Table 1 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar
![SOLVED: Show that the van Laar excess Gibbs energy model GE = A12x1x2RT / (A12x1 + A21x2) will give the following activity coefficient equation: A12lny1 = 1 / (A12x1 + A21x2) SOLVED: Show that the van Laar excess Gibbs energy model GE = A12x1x2RT / (A12x1 + A21x2) will give the following activity coefficient equation: A12lny1 = 1 / (A12x1 + A21x2)](https://cdn.numerade.com/ask_images/2184e026b81d4984baee8ce585db4ad8.jpg)
SOLVED: Show that the van Laar excess Gibbs energy model GE = A12x1x2RT / (A12x1 + A21x2) will give the following activity coefficient equation: A12lny1 = 1 / (A12x1 + A21x2)
![Table 2 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar Table 2 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/0b4e610592ffe5443a53149e7d185fe8b3348cb2/4-Table2-1.png)
Table 2 from Extending the Van Laar Model to Multicomponent Systems~!2010-04-11~!2010-04-19~!2010-06-24~! | Semantic Scholar
![Application of twin screw extrusion to the manufacture of cocrystals: scale-up of AMG 517–sorbic acid cocrystal production - Faraday Discussions (RSC Publishing) DOI:10.1039/C3FD00153A Application of twin screw extrusion to the manufacture of cocrystals: scale-up of AMG 517–sorbic acid cocrystal production - Faraday Discussions (RSC Publishing) DOI:10.1039/C3FD00153A](https://pubs.rsc.org/image/article/2014/FD/c3fd00153a/c3fd00153a-t1_hi-res.gif)
Application of twin screw extrusion to the manufacture of cocrystals: scale-up of AMG 517–sorbic acid cocrystal production - Faraday Discussions (RSC Publishing) DOI:10.1039/C3FD00153A
![Figure 7 from Error analysis of linearization methods in regression of data for the Van Laar and Margules equations | Semantic Scholar Figure 7 from Error analysis of linearization methods in regression of data for the Van Laar and Margules equations | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2cf44fa9a385f967b7ae8b905bb926bf163c9c5a/5-Figure7-1.png)
Figure 7 from Error analysis of linearization methods in regression of data for the Van Laar and Margules equations | Semantic Scholar
![Optimum binary interaction parameter and van Laar con- stants in the... | Download Scientific Diagram Optimum binary interaction parameter and van Laar con- stants in the... | Download Scientific Diagram](https://www.researchgate.net/publication/251219683/figure/tbl3/AS:817619510771713@1571947090801/Optimum-binary-interaction-parameter-and-van-Laar-con-stants-in-the-Wong-Sandler-mixing.png)