mixtures are solutions.they are solutions because when the substace of a solid dissolves from a liquid it becomes a solution. Note: solutions are not mixtures.....mixtures are solutions
Yes, all solutions are by definition mixtures.
the properties of mixturesare the mixtures thatmixed to the mixtures thatyou are mixing.....DID YOU UNDERSTAND CLASSIF YOU DONT UNDERSTANDBETTER TO GO OUT.....FROM: ROLIZON IBEA
Filtration is the best method.
The two types of mixtures are homogeneous and heterogeneous.Homogeneous : A homogeneous mixture has the same uniform appearance and composition throughout. Many homogeneous mixtures are commonly referred to as solutions. Particle size distinguishes homogeneous solutions from other heterogeneous mixtures. Solutions have particles which are the size of atoms or molecules - too small to be seen.Heterogeneous : A heterogeneous mixture consists of visibly different substances or phases. The three phases or states of matter are gas, liquid, and solid.
Based on the distribution of their components, mixtures can be classified as heterogeneous mixtures or as homogenous mixtures.
Chemical elements are not mixtures (I do not think to the isotopic composition).
Yes
Compounds differ from mixtures because compounds have a fixed chemical composition with elements chemically bonded in a specific ratio, while mixtures can vary in composition with no fixed ratio. Compounds have specific properties different from their constituent elements, while mixtures retain the properties of their components.
Homogeneous and heterogeneous are both terms used to describe mixtures. Homogeneous mixtures have uniform composition throughout, whereas heterogeneous mixtures have uneven composition with visible boundaries between the components.
No, a heterogeneous mixture does not have a uniform composition throughout. It contains different substances that are visibly distinguishable.
No, not all mixtures are classified as heterogeneous. Mixtures can be either heterogeneous or homogeneous. Heterogeneous mixtures have visibly different components, while homogeneous mixtures have uniform composition throughout.
This is proved by chemical analysis.
Homogeneous mixtures have uniform composition throughout, with the same properties in all parts. Heterogeneous mixtures have non-uniform composition, with distinct phases or regions that can be visually identified.
A substance has a specific chemical composition while mixtures contain more than one substance.
The property that determines the type of mixture is the uniformity of its composition. Homogeneous mixtures have uniform composition throughout, while heterogeneous mixtures have visibly different components that can be separated easily.
There are two types of mixtures: homogeneous and heterogeneous. Homogeneous mixtures have uniform composition throughout and consist of a single phase, like saltwater. In contrast, heterogeneous mixtures have non-uniform composition and can be separated into distinct phases, like a salad with different ingredients.