A mixture can be simply separated For instance a mixture of salt and water water can be separated from salt by evaporating the water. a container of sand and golfballs are a mixture there is no chemical bond holding them together.
A compound however is another story For instance take the compound water H2O its made up 2 gases of hydrogen and Oxygen to take them apart involves a chemical reaction.
These mixtures must have large differences between densities.
a solution is a type of mixture.
They are both methods which use heat to separate mixtures.
A homogeneous mixture contains the same proportions of its ingredients throughout the mixture. A heterogeneous mixture does not.
All solutions are mixtures but not all mixtures are solutions. Milk is a Mixtures of protein, fat, lactose and minerals in the form of colloids. Chocolate drink is a mixtures of suspense solid and milk (colloids) with sugar (solution).
Homogeneous mixtures have uniform composition throughout, meaning the substances are evenly distributed and not easily distinguished, like saltwater. Heterogeneous mixtures have uneven composition with distinct phases that can be visually identified, such as a salad with different vegetables.
Heterogeneous mixtures have different components that are visibly separate, like salad with distinct ingredients. Homogeneous mixtures have components that are evenly distributed, creating a uniform appearance, like saltwater. Both mixtures involve multiple substances but differ in their level of uniformity.
Some common ways of separating mixtures include filtration (based on particle size), distillation (based on differences in boiling points), chromatography (based on differences in solubility), and evaporation (based on differences in volatility).
by transparency, colour, density, etc.
Mixtures differ from solutions in that mixtures are composed of different substances that are physically combined, while solutions are homogeneous mixtures where the substances are evenly distributed at a molecular level. These differences can be identified by observing the uniformity of the mixture - if the components are visibly separate, it is a mixture, whereas if the components are evenly mixed and cannot be distinguished, it is a solution.
Yes, that's correct. Distillation separates mixtures based on differences in boiling points, while crystallization separates based on differences in solubility. Chromatography separates mixtures by allowing components to be carried over a stationary phase at different rates.
All mixtures have two or more components which doesn't react between them.