urea, uric acid, nacl, creatinine, phosphates
Molecular solutes will not conduct electricity when dissolved in solution, and ionic solutes will conduct electricity when dissolved in solution.
solutes, solvents are the substances that do the dissolving solutes, solvents are the substances that do the dissolving
Generally polar solutes are dissolved in polar solvents and nonpolar solutes are dissolved in nonpolar solvents.
A solution is a homogeneous mixture in which one or more solutes are dissolved in a solvent.
Moisture in the air works as solvent and soluble substances present in the air are solutes.
urea
No, cell membranes are semi-permeable, meaning they allow some solutes to pass through - but not others.
facilatated diffusion
No, tubing is not permeable at all, although the dialyzer is permeable to many solutes, depending on the type of dialyzer prescribed by a physician.
searching By : Mohamed Albarouni Dialysis is a membrane process where solutes (MW~<100 Da) diffuse from one side of the membrane (feed side) to the other (dialysate or permeate side) according to their concentration gradient. First application in the 70's Electrodialysis is a membrane process in which ions are transported through ion permeable membranes from one solution to another under the influence of an electrical potential gradient. First applications in the 30's.
It depends on where the non-permeating solutes were and what type of solution the cell is in. if non-permeating solutes were in the cell and their number was greater than the total number of solutes outside the cell, water would come into the cell and it would lyse. If there were a greater number of solutes on the outside of the cell, water would draw out of the cell and the cell would shrink. However, with time the solutes on the outside of the cell would diffuse into the cell and that could draw water with them.
The eventual result of diffusion is equilibrium. The concentrations prior to this point would be uneven. The solutes then diffuse from areas of high solute concentration to areas of low solute concentration. After diffusion, at equilibrium, the concentration will be even in different areas.
No, only 1/2 of the smaller solute will diffuse across the membrane and one half will stay behind:)
Well on this one you would have to ask your talented teacher , who went to school for this :) peace out
water or introduced oral intake
In this scenario, the concentration of solutes (the glucose and starch) is higher inside of the dialysis tubing than it is outside. As such, water will diffuse (via osmosis) into the dialysis tubing causing it to swell.
Nonpolar solvents are typically unable to dissolve polar or ionic solutes, as their molecular structure lacks the necessary polarity or charge to interact with these solutes. However, nonpolar solvents can dissolve nonpolar solutes, such as hydrocarbons or organic compounds with long chains of carbon and hydrogen atoms.