One example of an in thing that cannot be separated is the concept of "personal style." Personal style encompasses a person's unique fashion choices, preferences, and overall aesthetic, making it an intrinsic part of their identity and expression. It is a reflection of one's individuality and cannot be easily separated from who they are.
Solutions cannot be separated by sublimation.
A substance that cannot be separated physically is a pure substance.
An element cannot be separated into simpler substances by chemical means.
A compound, such as water (H2O), cannot be physically separated into its component elements (hydrogen and oxygen) but can be chemically separated through a chemical reaction, such as electrolysis, which breaks the bonds between the elements.
Nucleus and nucleolus cannot be separated by centrifugation because both are dense structures that pellet together during this process. They have similar densities and thus cannot be effectively separated based on their mass alone.
Solutions cannot be separated by sublimation.
A substance that cannot be separated physically is a pure substance.
An element cannot be separated into simpler substances by chemical means.
The mixture cannot be separated after it is baked.
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.
Sugar
No. Homogeneous mixtures generally cannot be separated by filtration.
Because it is not magnetic, sugar cannot be separated by a magnet.
no, it can not be separated by a physical process.
A compound, such as water (H2O), cannot be physically separated into its component elements (hydrogen and oxygen) but can be chemically separated through a chemical reaction, such as electrolysis, which breaks the bonds between the elements.
Nucleus and nucleolus cannot be separated by centrifugation because both are dense structures that pellet together during this process. They have similar densities and thus cannot be effectively separated based on their mass alone.
No, compounds cannot be separated by physical methods. Because of their chemical bonds, they can only be separated by chemical methods.