Gfr+secretion+reabsorption
solution is in equilibrium and the solvent and solute continue diffusion or osmosis at an equal rate.
saturated
Will increase the rate of dissolution and hence how fast the solute is dissolved.
The higher the thermal energy of a diffused sample AND its solute, the faster the kinetic rate of motion of the dissolved particles, or atoms, and the faster their rate of diffusion throughout the solute.
This is the solubilty of a solute in a given solvent, at a given temperature and pressure. The solubility rate depends on : 1. the nature of solute/solvent (chemical composition, polarity) 2. temperature 3. pressure 4. stirring 5. surface area of the solute 6. some added compounds 7. amount of the solute 8. the geometry of the beaker
solution is in equilibrium and the solvent and solute continue diffusion or osmosis at an equal rate.
When the solute concentration on both sides of the semi-permeable membrane is the same.
saturated
It prevents drugs from being stored in urinary tract passages, resulting in increasing the rate of excretion of both marijuana and metabolites, which causes urine tests to show negative
Increasing the pressure over a solid solute has virtually no effect on the rate that it dissolves. Stirring and increasing the temperature are the best methods for increasing the rate at which a solid solute dissolves.
Shaking affects the rate at which a solute dissolves because it increases the molecular activity of the solute within the solvent. When the molecular activity is increased, the rate of dissolving is also increased.
It increases the rate at which the solute dissolves.
Not necessarily just changing the surface area causes the rate to change. Changing the ratio of surface area volume changes the rate at which a solute dissolves in a solvent. If the surface area is larger and the volume of a solute is smaller or the same, then the rate at which the solute dissolves in a solvent increases. If the surface area is smaller and the volume of the solute is larger or the same, then the rate at which the solute dissolves in a solvent decreases.
Will increase the rate of dissolution and hence how fast the solute is dissolved.
the frequency and energy of the collisions between the solute and solvent particles
The higher the thermal energy of a diffused sample AND its solute, the faster the kinetic rate of motion of the dissolved particles, or atoms, and the faster their rate of diffusion throughout the solute.
INCREASE RATE OF EXCRETION OF Na+