A solution has two components: a solvent and a solute. If the solvent is a gas then the solute must be a gas. If the solvent is liquid or solid then the solute can be gas, liquid or solid.
A solution is a homogeneous mixture of the solvent and solute such that the bits of the solute cannot be seen by the naked eye. It is a stable mixture whose components cannot be separated by mechanical means.
A solution.
If your mixture is sand and salt, separating the two will give you sand and salt.Whatever the mixture is made of, separating the components will give you the components
A heterogeneous solution combines 2 or more solutions that are not chemically combined. A homogeneous solution is when the components are uniformly distributed.
You can use a spectroscope to identify the components of solutions by separating the various colours of the components. This can also to convert and breakdown the compounds into individual elements.
A solution contains a solvent and one or more solutes. It is classified as a mixture because when a substance is dissolved in another substance, the two substances are still the same substances, not having undergone any significant chemical change, they are just mixed together.
Yes, in a solution, the individual parts are chemically combined to form a homogeneous mixture where the components are evenly distributed at a molecular level. This allows solutions to have consistent properties throughout.
Yes, components of a solution can separate upon standing due to differences in their densities, solubilities, or chemical interactions. This can lead to the formation of layers or precipitation within the solution.
NO
It is impossible for a monophasic solution.
A solution is mixture of two or more components.
are the components of a solution separable by chemical methods
A uniform solution is one where the components are evenly mixed and consistent throughout. A non-uniform solution would have visible variations or separations between the components.
It depends on the specific context. In chemistry, a solution is typically considered to be homogeneous, meaning the components are uniformly distributed at the molecular level. However, if the solution visibly contains multiple phases or distinct components, it may be heterogeneous.
One way to standardize a solution in one step is to multiply all the components of the solution by a constant factor that ensures the sum of all components adds up to a specific value or that the total concentration of the solution remains the same.
Gravity alone cannot make a solution separate over time. The separation of components in a solution is typically driven by differences in density, solubility, or chemical interactions between the components. However, gravity can influence the rate of separation by causing denser components to settle to the bottom of a solution, a process known as sedimentation.
A true solution consists of a minimum of two components, namely a solvent and a solute.
No. By definition a "solution" has a minimum of two components. An element is a single atomic entity. A solution cannot be an element.