False. By definition, a solution is a homogeneous mixture, that is to say, everywhere in it its properties are the same (one phase only). An example is a non saturated mixture of salt and water.
The opposite is a heterogeneous mixture, where there are regions (phases) of different characteristics. An example is a mixture of oil and water.
No, it is not true.
false all solutions are mixtures but not all mixtures are solutions
Yes, it is true.
Actually, the main difference is in their uniformity. Homogeneous mixtures have uniform composition throughout, while heterogeneous mixtures have distinct phases with visible boundaries. Chemical bonds are not a defining factor for distinguishing between these types of mixtures.
False. It is homogeneous
False, the parts of mixtures are not chemically bound.
No, it is not true.
false all solutions are mixtures but not all mixtures are solutions
true
Yes, it is true.
True
False. Mixtures can be separated using various methods such as filtration, distillation, chromatography, and evaporation.
Actually, the main difference is in their uniformity. Homogeneous mixtures have uniform composition throughout, while heterogeneous mixtures have distinct phases with visible boundaries. Chemical bonds are not a defining factor for distinguishing between these types of mixtures.
False. It is homogeneous
False. While all solutions are mixtures, not all mixtures are solutions. A solution is a homogeneous mixture where the components are evenly distributed at a molecular level, while a mixture can be heterogeneous with uneven distribution of components.
Yes, it is true.
true