Yes. they can be separated. But the means of separation depends on the nature of the components.
One way a mixture cannot be separated is if its components are chemically bonded together, forming a compound. This results in a homogeneous mixture where the individual components cannot be physically separated.
The components of a pure substance cannot be separated because they are chemically bonded together in a specific ratio. Any attempt to separate them would require breaking these bonds, which would result in creating new substances. This is different from a mixture, where the components are physically mixed and can be separated through physical means.
- distillation - centrifugation - sieving - flotation - electromagnetic separation - filtering - manual sorting - radiometric sorting -etc.
Crude oil can be separated into its components through a process called fractional distillation. This involves heating the crude oil to a specific temperature where different hydrocarbons in the mixture evaporate at different rates due to their varying boiling points, allowing them to be collected separately as they condense back into liquid form.
The components can be separated using a combination of techniques. First, BaSO4 can be removed by filtration. Then, Na2CO3 can be separated from the remaining mixture by acid-base reaction. Finally, C10H8 can be recovered through evaporation or distillation.
The meaning is that the components can be separated from the mixture.
The components of a mixture can be separated by filtration and distillation.
The shell, yolk and the white can be separated.
Compound...:DD
No. Gold is an element.
Air is separated in components by fractional distillation.
Compound
One way a mixture cannot be separated is if its components are chemically bonded together, forming a compound. This results in a homogeneous mixture where the individual components cannot be physically separated.
There are no components to Nitrogen. For this reason your question makes no sense.
Components of a mixture are separated to isolate them for further analysis or use. This allows for the removal of impurities, purification of desired substances, or identification of individual components. Separation methods take advantage of differences in physical or chemical properties among the components.
Homogeneous mixtures can only be separated by distillation if their components have significantly different boiling points. If the components have similar boiling points, distillation may not be an effective method for separation.
yes