A separation technique is something used to separate an object from it's mixture. For example, in a bowl you have chalk, chalk dust, salt, and paperclips. You'd use magnetic attraction to get the paperclips out. Then you'd use your hands and take out the chalk. And then, you use a sifting tool and it'll separate the salt and chalk dust by itself. But, another cool way to separate those two is to put them in water. The salt will eventually sink because it's denser than water, and the chalk dust will float because it is less dense. Other techniques are, filteration, sifitng, magnetic attraction, evaporation, chromotography. Hope that helped! :D
Distillation is a useful separating technique because every compound has a unique boiling point. Distillation takes advantage of a compound's boiling point to separate it from other compounds.
Panning.
Flotation.
Check it out yourself freak. I'm joking. It Gravity separating.
The best separating technique for a mixture of dyes is chromatography, specifically paper chromatography. This method allows for the separation of dyes based on their solubility and affinity for the stationary phase (the paper) versus the mobile phase (the solvent). As the solvent travels up the paper, different dyes will move at different rates, resulting in distinct bands of color that can be analyzed. This technique is effective for separating complex mixtures of substances, such as dyes, due to its high resolution and sensitivity.
Yes, crystallization is a method of separation; a very known application is the separation of salt from sea waters.
All answers are correct except option b
Ion exchange chromatography would be most suitable for separating glucosamine from glucuronic acid. This technique separates compounds based on their charge differences, and since glucosamine and glucuronic acid have different charges, they can be effectively separated using this method.
Decanting is basically a fancy word for "pouring." It's not effective at all for suspensions where the suspended phase is still in suspension; it may be effective in some cases after the suspended phase settles out.
First decant the water - the sand will be left behind. Then evaporate the water and the salt will be left behind.
Industrial decisions are made based on cost / benefit analysis. Maximum profit for making a certain amount of the substance.
The separating technique for salt and sand is called filtration followed by evaporation. First, water is added to the mixture, dissolving the salt while leaving the sand behind. The mixture is then filtered, allowing the sand to remain on the filter paper while the saltwater solution passes through. Finally, the salt can be recovered by evaporating the water, leaving the salt crystals behind.