Fine particles of sand are shaken up in ...

Fine particles of sand are shaken up in water contained in a tell cylinder. If the depta of water in the cylinder is 24 cm, calculate the size of the largest particle of sand that can remain suspended after the expiry of 40 minutes. Given density of sand =`2.6 g cm^(-3)` and viscosity of water = 0.01 poise. Assume that all the particles are spherical and are of different sizes.

Similar Questions

Explore conceptually related problems

A powder comprising particle of various sizes is stirred up in a vessel filled to a height of 10 cm with water. Assuming the particle to be spherical, find the size of the largest particle that will remain in suspension after 1h (density of powder =4g//cm^(3) , viscosity of water =0.01 poise).

A powder comprising particle of various sizes is stirred up in a vessel filled to a height of 10 cm with water. Assuming the paticle to be spherical, find the size of the largest particle that will remain in suspension after 1h (density of powder =4g//cm^(3) , viscosity of water =0.01 poise).

Emery powder particles are stirred up in a beaker of water 0.1 m deep. Assuming the particles to be spherical and of all sizes, calculate the radius of the largest particle remaining in suspension after 24 hours. Given that density of emery is 4000 kg m^(-3) and coefficient of Viscosity water is 0.001 decapoise.

Spherical particles of pollen are shaken up in water and allowed to settle. The depth of water is 2xx10^(-2)m . What is the diameter of the largest particles remaining in suspension one hour later? Density of pollen =1.8xx10^(3)kgm^(-3) viscosity of water =1xx10^(-2) poise and density of water =1xx10^(-3)kgm^(-3)

Sand settles down in water.

Similar Questions

Recommended Questions