Solution: Properties of Solution
A solution is a homogeneous mixture of two or more two substances whose particle size ranges between 0.1nm to 1nm. Homogeneous means that the components of the mixture form a single phase.
You must have seen many types of solutions in general such as soda water, sharbat, salt solution etc. You would have seen brass utensils as well which are also the homogeneous solutions of solid into solid. We can prepare solutions of solid-liquid, solid-solid, solid-gas, liquid-solid, liquid-liquid, gas-solid, gas-liquid and gas-gas. Gasoline, alloys, air, starch solution etc. are examples of solutions.
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Components of Solution
The solution is made from two components called solute and solvent.Let’s discuss solute and solvent in detail.
- Solute – The substance which is being dissolved in a solvent to form a solution is called a solute. It is present in a lesser quantity than the solvent in the solution.
- Solvent – The component of a solution in which solute is being dissolved is called a solvent. It is present in more quantity than solute in solution.
For example - If we take a solution of saltwater. Then in this solution salt is solute and water is a solvent as salt is being dissolved in water and salt is present in lesser quantity than water in the solution. Thus, we can say solvent forms a major proportion of the solution.
Examples of Solutions
Sugar-water, salt solution, brass, alloys, alcohol in water, aerosol, air, aerated drinks such as Coca-Cola etc. are examples of solutions. When we work with chemistry, we generally prepare many types of solutions such as copper in water, iodine in alcohol etc.
Types of solutions
Solutions can be divided into the following types of the basis of the quantity of solute in a solution –
- Unsaturated Solution – The solution in which still we can add more solute at a given temperature is called an unsaturated solution.
- Saturated Solution – The solution in which we cannot dissolve more solute in the solvent at a given temperature is called a saturated solution.
- Supersaturated Solution – The saturated solution in which we add more solute by raising the temperature or pressure is called a supersaturated solution. In these solutions generally, crystals start forming.
Solutions can be divided into the following types of the basis of the amount of solvent added-
- Concentrated Solution – The solution in which solute is present in large quantity is called a concentrated solution.
- Dilute Solution – it has a very small amount of solute in a large quantity of solvent.
Properties of a Solution
A solution possesses the following properties –
- A solution is a homogeneous mixture.
- The constituent particles of a solution are smaller than 10 -9 metres in diameter.
- Constituent particles of a solution cannot be seen by naked eyes.
- Solutions do not scatter a beam of light passing through it. So, the path of the light beam is not visible in solutions.
- Solute particles cannot be separated by filtration.
- Solute or solvent particles do not settle down when left undisturbed.
- Solutions are stable at a given temperature.
Concentration of solution
The concentration of a solution refers to the amount of solute present in a given amount of solution. The amount of solute can be represented by its mass or volume. The concentration of a solution can be represented in various ways. The relative amount of solute and solvent present in a solution can be represented by different methods of expression. These ways are as follows.
- Percent Composition (by mass): The following formula is used for the calculation of percent composition.
- Molarity: Molarity is used to express the number of moles of solute in exactly one liter of a solution. The following formula is used for the calculation of molarity.
- Molality: Molality is used to express the number of moles of solute dissolved in exactly one kilogram of solvent. The following formula is used for the calculation of molality.
- Mole Fraction: The mole fraction (X) of a component in a solution is defined as the ratio of the number of moles of that component to the total number of moles of all components in the solution. The mole fraction of A is expressed as X A with the help of the following equation in a solution consisting of A, B, C, … we can calculate X A .
Similarly, we can calculate the mole fraction of B, X B with the help of the following formula.
Conclusion
We know that we use solutions in our daily life as they are an important part of our life. After going through the article we get all the necessary information related to the solution such as its properties, ways of expressing it and some common examples.