![CAPILLARITY, CAPILLARY ACTION AND EXPRESSIONS FOR CAPILLARY RISE AND CAPILLARY DEPRESSION - ENGINEERING APPLICATIONS CAPILLARITY, CAPILLARY ACTION AND EXPRESSIONS FOR CAPILLARY RISE AND CAPILLARY DEPRESSION - ENGINEERING APPLICATIONS](https://3.bp.blogspot.com/-FHxHT7NR-sI/Wi4XtvP7kPI/AAAAAAAAD9E/udfYjvBQI8Yo7i8l5kOmTr2XL1AJOZ-yQCLcBGAs/s1600/2.jpg)
CAPILLARITY, CAPILLARY ACTION AND EXPRESSIONS FOR CAPILLARY RISE AND CAPILLARY DEPRESSION - ENGINEERING APPLICATIONS
![How would you calculate the surface tension of a 2% (w/v) solution of a wetting agent that has a density of 1.008 g/mL and that rises 6.6 cm in a capillary tube How would you calculate the surface tension of a 2% (w/v) solution of a wetting agent that has a density of 1.008 g/mL and that rises 6.6 cm in a capillary tube](http://www.chem1.com/acad/webtext/states/state-images/caprise1.png)
How would you calculate the surface tension of a 2% (w/v) solution of a wetting agent that has a density of 1.008 g/mL and that rises 6.6 cm in a capillary tube
![How to design a capillary tube: the simplest and most reliable throttling device | UNILAB - Heat Transfer Software How to design a capillary tube: the simplest and most reliable throttling device | UNILAB - Heat Transfer Software](https://www.unilab.eu/wp-content/uploads/2017/08/unilab_heat_transfer_software_blog_CAPILLARY_TUBES_4.jpg)
How to design a capillary tube: the simplest and most reliable throttling device | UNILAB - Heat Transfer Software
![Using data from the diagram below, calculate the ratio of the height to which water at 0 C and mercury are raised or suppressed by capillary action in the same glass tube. ( Using data from the diagram below, calculate the ratio of the height to which water at 0 C and mercury are raised or suppressed by capillary action in the same glass tube. (](https://homework.study.com/cimages/multimages/16/download_61893466947237370005.png)