increases
As the particle size gets smaller, the surface area increases, and as the surface area increases, the ease with which water can hydrate the particles increases. When it is easier for water to hydrate the molecules, this increases the speed at which the solute dissolves.
As soil particle size increases so does permeability. I am doing Earth Science in 8th grade and 9R in 8th grade
Reducing particle size results in an increase in surface area. The increase in surface area allows more solvent (water) molecules to interact with the substance, and this increases the rate at which that substance dissolves.
Mean particle size=0.94*Lambda/(FWHM*cos(theta)
As particle size in increases, capillarity decreases
increases
increases
As the particle size gets smaller, the surface area increases, and as the surface area increases, the ease with which water can hydrate the particles increases. When it is easier for water to hydrate the molecules, this increases the speed at which the solute dissolves.
Smaller particle size for a start
As soil particle size increases so does permeability. I am doing Earth Science in 8th grade and 9R in 8th grade
As soil particle size increases so does permeability. I am doing Earth Science in 8th grade and 9R in 8th grade
capillarity
The contact between reactants is improved if the particle size is smaller..
When the pore size is increased it allows more fluids and solutes to pass through which is why the filtration rate increases. This means that the pore size and the filtration rate are directly proportional.
crystallite is the average size of the particle whereas the particle size denotes the individual size of the particle.
Porosity of surface soil typically decreases as particle size increases so permeability also decreases.