No, an ideal solution is completely different than a true solution. A true solution is where you can't differentiate between the solute and solvent molecules even at the microscopic level. It is completely homogeneous. For example, milk seems to be completely homogeneous but it isn't. Milk is actually has a suspension of fat molecules which are not dissolved at all. An ideal solution, on the other hand, is one where molecular interactions between solute molecules are absolutely zero, and it follows Raoult's law. No solution is in fact ideal (although many are close to ideal), but we do have true solutions.
false all solutions are mixtures but not all mixtures are solutions
true
no because according to our che
There are three main types of solutions formed with solids in liquids: true solutions, colloidal solutions, and suspensions. True solutions have solute particles that are very small and uniformly distributed, giving a clear and homogeneous mixture. Colloidal solutions have larger solute particles that are dispersed throughout the solvent, giving a cloudy or translucent appearance. Suspensions have even larger solute particles that settle out over time, resulting in a heterogeneous mixture.
False. Unsaturated solutions have not reached their maximum solute concentration and can dissolve more solute.
True solutions do not exhibit Brownian motion. Brownian motion is a phenomenon observed in colloidal solutions, where the particles are much larger than molecules in true solutions. In true solutions, the solute particles are uniformly dispersed at the molecular level and do not exhibit the random movement seen in colloidal solutions.
false all solutions are mixtures but not all mixtures are solutions
true
The two solutions are coincident.
True - otherwise there would be no point in doing it!
There are two complex solutions.
The solutions.
It is one of a set of solutions.
True yal :)
A true solution is a homogeneous mixture.
true
A true solution is a homogeneous mixture.