Whatever they are, they are NOT in solution.
They are contaminants.
Conducting particles in solutions are called ions. Ray
Suspensions have bigger particles compared to solutions. In suspensions, the particles are larger and can be seen with the naked eye, while in solutions, the particles are at the molecular or ionic level and cannot be seen.
Particles in solutions are evenly distributed and small enough to not settle out or be filtered out easily. In contrast, particles in suspension are larger and will settle out over time or with filtration. Solutions are typically clear, while suspensions may appear cloudy or opaque due to the presence of suspended particles.
particles in solutions are dissolved. Unless the particles are too big, then they would just sink to the bottom E.G sand wouldn't dissolve in water, but salt would. particals in soulutions are dissolved
Yes, mixtures can be classified as solutions, suspensions, or colloids based on the size of the particles present. Solutions have particles that are very small and do not settle out, suspensions have larger particles that eventually settle, and colloids have intermediate-sized particles that do not settle but scatter light.
Solutions can be distinguished by their transparency or clarity. A solution is clear if you can see through it with no particles present. Tinted solutions may have a slight color, while opaque solutions have particles that make them appear cloudy.
Particles in solutions can be removed by filtration through a process where the solution is passed through a filter that traps the particles while allowing the liquid to pass through. The size of the particles and the pore size of the filter determine which particles are removed. Vacuum filtration or gravity filtration are common methods used to separate particles from solutions.
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.
Both solutions and suspensions are mixtures of two or more components. However, the particles in suspension are larger and will eventually settle out, where the particles in a solution are on the atomic or molecular level.
Solutions are chemical mixtures, and three words concerning them might be concentration, solubility, or particles.
Suspension is a heterogeneous mixture in which insoluble solid particles are dispersed in a liquid. Colloids are homogeneous mixtures where particles are intermediate in size between those in a solution and a suspension, and do not settle out. Solutions are homogeneous mixtures where substances are completely dissolved in a solvent.
Solvent