Today I stay home and I try to repeat this test for dry and wet sand by cup of water and then my son had told his mother {my father play in the garden by sand} hahaha thanks for this information
The water content along the height of the sample will not be constant. At the base near the elevation of the freatic surface, the water content will be highest approaching saturation. At the highest point of capillary rise, it will most likely be below field capacity.
A great help for a new geotechnical engineer. Thanks!
Excellent video Professor
Thank you very much for such a great video! It has cleared a lot of my doubts
Geeat demonstration of effective stress. Thank you
great explanation!!!! thanks prof!!
Thank for VDO in this WFH period
You're the best
Thank you! that was a great help.
Very nice presentation. Thank you! I will give my students the link :-)
Splendid
Thank you very much professor
Today I stay home and I try to repeat this test for dry and wet sand by cup of water and then my son had told his mother {my father play in the garden by sand} hahaha thanks for this information
Never apologize for playing in the sand!
Thank you so much sir....🙏
Prof, any research papers available?
what's the maximum height in inches the water rises in soil?
A Geotechnical God Father
In my country because of 3 stories graves, you will be buried in 7.5 ft deep. does capillary rise happen from this depth to surface?
Man!
I am in love with you!
Great job! That was not as dry as i thought it was going to be.
Capillary rise is never dry :)
Will water continue to rise until the soil is at field capacity if there is enough water to do so?
The water content along the height of the sample will not be constant. At the base near the elevation of the freatic surface, the water content will be highest approaching saturation. At the highest point of capillary rise, it will most likely be below field capacity.
@@introductiontogeotechnical4976 Please explain the relationship of capillary rise and gravity. Or did you and I missed it?
Would you please respond to Nick Stayman's question?
Done.