The smaller the particle the faster it dissolves. This is because the process by which a solute dissolves takes place at the surface of the solvent. That means the larger the surface area of a particle or solute, the faster the solute will dissolve.
The smaller the size of the solute (solid that will dissolve) the faster it will dissolve.
The larger the pieces the solute, the slower the rate of dissolution due to increased surface area. Smaller pieces of solute are more amenable to solution,.
Particle's structure is mostly responsible for the rate of dissolving and also rate of dissolving is inversly proportional to the mass of molecule
the rate of rate the buang use to monggoloid
The smaller the particle size, the faster it will dissolve.
The smaller the particle, the faster it dissolves.
The smaller the particle size, the surface area is larger and the dissolution is faster.
the smaller the faster
Bigger the size more the charge could be derived but no way the potential difference get changed
atoms
The purpose of a filter paper in a laboratory is to more or lessseparatemixtures. (e.g. sand and water- the sand isn't soluble, and therefore won't dissolve in the water. Therefore, filter paper can easily be used toseparatethe two).Filter paper (filtration) isn't the most efficient way toseparatemixtures that don't dissolve together, but it gets most of the job done.
No it does not affect the way it sprouts.
The best way is to filter sterilize the solution using a nylon membrane/ syringe filter, of 0.45 micron pore size. If needed, dissolve Urea in autoclaved water and then filter sterilize.
The size of a rugby player does not affect gravity in any way.
The larger the particle size, the higher the porosity. Also keep in mind that angular particles have a higher porosity than round particles. *Good way to remember porosity is that the spaces between particles are "pore-like."
That depends entirely on what the "particles" are made of.In atomic science particle is the general term given to quantum objects. In the context of solution chemistry particles are ions, atoms or molecules. The general rule is that like dissolves like. This means non polar solvents dissolve non-polar particles. Example: petroleum dissolves oil. Polar solvents dissolve ionic or polar particles. Example: Water dissolves sodium chloride and sugar. One is ionic the other is polar.
yes or maybe not it depends on the owner on how to do with it
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Suppose you have a solution with particles floating in it. You can use a test sieve to measure the size of the particles. The shaker mentioned in the question shakes the sieve in the controlled way so the particles can be measured accurately.
A. is the answer because electrolytes are salts that dissolved in water and dissociate into charged particles called ions.
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Bigger the size more the charge could be derived but no way the potential difference get changed
Particles are measured according to the way that they scatter when coming into contact with a laser. The size can only be determined according to the height, length and breadth of each particle.
In a way they do, but even smaller "particles" are called atoms.
The size of a molecule may affect the way in which an organism obtains the nutrients because the larger the molecule you have, the more the element can hold, so that would mean that there would be more nutrients for the organism.