If Dynamic viscosity = 0.0008 kg/m sec; gravitational acceleration g (9.81 m/sec2), average particle density = 2650 kg/m3), and water density at 25 oC = 997kg/m3). Now Using Stokes's law and the Canadian system of soil classification, calculate the time needed for the soil separates up to clay mineral particles of size 0.0001 mm to settle out of a depth of 0.2 m in an aqueous suspension at 25 oC. What will be the effect of particle size ranges on settling time. Discuss a bit.
If Dynamic viscosity = 0.0008 kg/m sec; gravitational acceleration g (9.81 m/sec2), average particle density = 2650 kg/m3), and water density at 25 oC = 997kg/m3). Now Using Stokes's law and the Canadian system of soil classification, calculate the time needed for the soil separates up to clay mineral particles of size 0.0001 mm to settle out of a depth of 0.2 m in an aqueous suspension at 25 oC. What will be the effect of particle size ranges on settling time. Discuss a bit.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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If Dynamic viscosity = 0.0008 kg/m sec; gravitational acceleration g (9.81 m/sec2), average particle
density = 2650 kg/m3), and water density at 25 oC = 997kg/m3). Now Using Stokes's law and the Canadian system of soil classification, calculate the time needed for
the soil separates up to clay mineral particles of size 0.0001 mm to settle out of a depth of 0.2 m
in an aqueous suspension at 25 oC. What will be the effect of particle size ranges on settling time. Discuss a bit.
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