Want this question answered?
if ur talking about separation of mixtures, this method applies to heterogenous solid mixtures. It involves manually separating each of the component elements of a mixture. an example would be separating a mixture of iron nalis and screws.
Separation of mixtures is generally based on physical properties.
A homogeneous mixture is a type of mixture in which the composition is uniform and every part of the substance has the same properties, for instance mixture's physical properties, such as its melting point, may differ from those of its individual components.
FALSE It is true the above answer is wrong
These properties are specific for each substance.
The separation is possible because components of a mixture have different physical properties.
they are compacted together in to one thing forming a separation of mixtures
yes
if ur talking about separation of mixtures, this method applies to heterogenous solid mixtures. It involves manually separating each of the component elements of a mixture. an example would be separating a mixture of iron nalis and screws.
Separation of mixtures is generally based on physical properties.
1. All mixtures can be easily separated using an ordinary physical method 2. The constituents of mixtures are nt combined in a definite ratio 3. Constituents of mixtures retain their properties
Examples: filtration, decantation, distillation, sieving, magnetic separation, solvent extraction, etc.
The physical properties of the things in the mixture. It could be that one part of the mixture is soluble, the other part insoluble - both physical properties. It could be that you use the boiling point of 2 liquids to separate them - physical properties. You could use a magnet if one part is magnetic and the other isn't - physical properties. And so on. But you are relying on physical properties rather than chemical properties.
A compound is a simple substance, a mixture is formed from two or more compounds.A mixture can be separated by physical procedures, a compound not.
Both mixtures and pure substances have measurable and observable chemical properties and physical properties. A liquid mixture vaporizes over a temperature range; whereas, a pure substance boils at a fixed temperature.
Both mixtures and pure substances have measurable and observable chemical properties and physical properties. A liquid mixture vaporizes over a temperature range; whereas, a pure substance boils at a fixed temperature.
Heterogeneous mixtures are separated by physical means.