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the nature of the solte and solvent determines the attractive forces that exist between particles in solution
What determines a molecule's solubility degree in water is its polarity. Equals dissolve.
By knowing the concentrations of solute and solvent on the inside and outside of a cell, the direction of osmosis and the result of the cell can be predicted. Solutions on the outside of a cell can be described based on how they affect the cell.
The substance dissolved in a liquid is called the solute.
its called a solute. so in the water-salt mix, the water is thesolvent n the salt is the solute. -PJ
the frequency and energy of the collisions between the solute and solvent particles
The most important property is the solute concentration.
The amount of solute, or more specifically the ratio of solute to solvent, determines the level of saturation.
The most important characteristic is the polarity of the solvent and solute.
The amount of solute relative to solvent is what determines concentration. Therefore, solute is the property of solutions on which the concept of concentration relies.
the nature of the solte and solvent determines the attractive forces that exist between particles in solution
the frequency and energy of the collisions between the solute and solvent particles
This term is concentration, expressed in g/l, mol/L, mg/L, etc.
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Context
What determines a molecule's solubility degree in water is its polarity. Equals dissolve.
The gradient can be calculated by comparing the solute particles from one solution with another. Distance determines the gradient levels within the solution.