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प्रश्न
Differentiate between solution and suspension.
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उत्तर
| Solution | Suspension | ||
| 1. | Solution is a homogeneous mixture. | 1. | Suspension is a heterogeneous mixture. |
| 2. | Particle size less than 10−10 m. | 2. | Particle size greater than 10−10 m. |
| 3. | Particles of solute are invisible. | 3. | Solute particles are visible. |
| 4. | It is transparent. | 4. | It is opaque. |
| 5. | Particles of solute do not settle. | 5. | Solute particles settle at the bottom of the container. |
| 6. | Solute particles cannot be filtered. The solution easily flows through filter paper. | 6. | Solute particles do not pass through a filter paper. |
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संबंधित प्रश्न
Explain the term of Solute.
How are sol, solution and suspension different from each other?
Explain how the following factor affects the formation of a solution is proportion of the solute & the solvent.
Explain how the following factor affects the formation of a solution is particle size of the solute.
How are solutions generally classified. What is the basis of this classification.
Draw a table to differentiate – True solutions, colloidal solutions & suspensions – with respect to
- Type of mixture
- Solute particles in the mixture.
Give four examples of each of the above types of solutions i.e. true solution, colloidal solution & suspension. Give a reason why a true solution does not exhibit ‘Tyndall effect’.
Select the correct answer of the following statement:
A heterogenous mixture of undissolved particles in dispersion medium, visible to the naked eye.
Complete the statement by filling the blank with the correct word from the option.
Solubility of a solute is the _______ amount of solute that will saturate 100 g. of water at t°C.
Two substances, A and B were made to react to form a third substance, A2B according to the following reaction
\[\ce{2A + B -> A2 B}\]
Which of the following statements concerning this reaction are incorrect?
(i) The product A2B shows the properties of substances A and B
(ii) The product will always have a fixed composition
(iii) The product so formed cannot be classified as a compound
(iv) The product so formed is an element
