compound
Colloids are mixtures where particles are dispersed but not dissolved in a medium, making them not evenly mixed but difficult to separate by filtering due to their small particle size. Alloys, mixtures of metals, can be evenly mixed but still difficult to separate due to their similar properties. Solutions are evenly mixed but can be separated if the components have different boiling points, while suspensions contain larger particles that can be separated by filtering.
A homogeneous mixture, such as a solution, cannot be separated with a screen or paper filter because its components are evenly distributed at a molecular level and cannot be physically separated by size.
Homogeneous mixtures, such as solutions, look like a single substance and cannot be separated using filter paper because the particles are evenly distributed at a molecular level. The components of a homogeneous mixture are not easily distinguishable, unlike in heterogeneous mixtures.
Both mechanical mixtures and solutions are homogeneous mixtures where the components are evenly distributed. However, mechanical mixtures can be separated by physical means like filtration, while solutions are a mixture of a solute dissolved in a solvent and cannot be separated by physical means. Additionally, both mechanical mixtures and solutions have multiple components.
Not always. There are 3 types of mixtures: heterogeneous, homogeneous, colloid, and alloys. These are the properties of these 3 mixtures:Heterogeneous: mixtures that can be easily separated Exp.: trail mixHomogeneous: mixtures that looks the same throughout and can be evenly mixed Exp.: salt waterColloid: a mechanical mixture where one substance is dispersed evenly throughout another.So here are the properties of these mixtures. Now you know that not all mixtures are homogeneous.
collides are small tiny particles mixed together. Solutions are homogeneous mixture that the particles can be seen and separated. Mechanical mixture is heterogeneous mixture and cannot be seen and separated. suspensions are particles dissolved into each other and in over time they separated because of density
Mixtures can be divided into two categories: homogeneous mixtures, where the components are evenly distributed and not easily distinguished, and heterogeneous mixtures, where the components are not evenly distributed and can be visually distinguished.
A homogeneous mixture is easily separated by filtering or decanting because its components are evenly distributed and have similar properties throughout. Solutions, compounds, and heterogeneous mixtures may require more complex separation techniques due to the differences in properties between their components.
Homogeneous mixtures are generally smooth and uniform in appearance because their components are evenly distributed at the molecular level. This means that, unlike heterogeneous mixtures, you cannot easily distinguish or separate the individual parts. Common examples include solutions like saltwater or vinegar, where the substances blend seamlessly.
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.
Homogeneous mixtures are the same throughout. They can be evenly mixed.Heterogeneous mixtures can be separated easily like water with ice cubes.Cream of mushroom, with large mushroom pieces, is considered a heterogeneous mixture because it can be separated. (The mushrooms/vegetables and the cream soup)
There are two types of mixtures:1. Homogeneous mixture - a mixture in which all the constituents are uniform throughout the mixture. Solutions are examples of homogeneous mixtures.2. Heterogeneous Mixture - a mixture in which the composition is easily identified. Suspensions are examples of heterogeneous mixtures.