one of the advantages may be that we make use of these new substances given back to us as we seperate, we use them effectively.
Yes. Try using a separation flask.
Mixtures can be separated using methods of purification (or separation techniques). Examples include filtration, crystallization etc. How a mixture can be separated will depend on its composition/properties.
Sieving is largely used in laboratories and industry for separation.
Decantation refers to a process involving the separation of mixtures, by way of eliminating a layer of liquid.
Destillation is a pure physic method used for separation of mixtures of compounds. It is NOT a chemical 'ReAcTiOn'
Chromatography is the collective term for a set of laboratory techniques for the separation of mixtures. There are many different types of chromatography, with different techniques for separating the mixtures.
its not.
These mixtures must have large differences between densities.
The method of separation is different for each system.
The process is called separation.
Some of the types of properties that can be used to separate mixtures are:FiltrationDistillationChromatographyMagnetismFloatationExtractionCrystallizationMechanical Separation
Separation of mixtures is generally based on physical properties.
explain the mechanism of diffusion in the separation of isotopic mixtures
Yes, mixtures can be separated with a centrifuge, and mixed liquids and powders can be separated by different evaporation techniques.
Mixtures can be separated by: Distillation, Chromatography, Evapouration, Filtration, Decantation, Crystalization, Magnatisim, Sorting By Hand, Sifting
This affirmation is not generally valid.
A "hard method of separation" is not an expression in chemistry.