![Thomas Dayspring on Twitter: "Plasma is polar: Cross X of lipoprotein showing SURFACE (PL & free cholesterol) & CORE lipids - amphiphilic properties of cholesterol & PL (have polar & non-polar ends Thomas Dayspring on Twitter: "Plasma is polar: Cross X of lipoprotein showing SURFACE (PL & free cholesterol) & CORE lipids - amphiphilic properties of cholesterol & PL (have polar & non-polar ends](https://pbs.twimg.com/media/EN4c0U0UYAILigb.jpg)
Thomas Dayspring on Twitter: "Plasma is polar: Cross X of lipoprotein showing SURFACE (PL & free cholesterol) & CORE lipids - amphiphilic properties of cholesterol & PL (have polar & non-polar ends
![Understanding the role of cholesterol in cellular biomechanics and regulation of vesicular trafficking: The power of imaging - IOS Press Understanding the role of cholesterol in cellular biomechanics and regulation of vesicular trafficking: The power of imaging - IOS Press](https://content.iospress.com/media/bsi/2016/5-S1/bsi-5-s1-bsi157/bsi-5-bsi157-g001.jpg)
Understanding the role of cholesterol in cellular biomechanics and regulation of vesicular trafficking: The power of imaging - IOS Press
![a) Explain why C H 2 C l 2 is a polar molecule. (b) Take a look at the structure of cholesterol; predict its solubility in water. Explain your answer. | Homework.Study.com a) Explain why C H 2 C l 2 is a polar molecule. (b) Take a look at the structure of cholesterol; predict its solubility in water. Explain your answer. | Homework.Study.com](https://homework.study.com/cimages/multimages/16/screen_shot_2021-10-14_at_10.18.38_am1401032240916479784.png)