1 / 25

Solutions and Solubility

Solutions and Solubility. Unit 4 extension. What is a solution?. A solution is a homogeneous mixture of 2 or more substances. Homogeneous: a mixture that is uniform throughout; the particles are evenly distributed. Parts of a solution. A solution contains at least 2 components:

Jims
Télécharger la présentation

Solutions and Solubility

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Solutions and Solubility Unit 4 extension

  2. What is a solution? • A solution is a homogeneous mixture of 2 or more substances. • Homogeneous: a mixture that is uniform throughout; the particles are evenly distributed

  3. Parts of a solution • A solution contains at least 2 components: • Solute: the substance being dissolved; example: salt • Solvent: substance doing the dissolving; it is the major component in the solution; example: water

  4. Universal Solvent • Water is known as the universal solvent because so many different substances can dissolve in water. • Are there substances that do not dissolve in water? • Yes! Examples: • Sand • Plastic • Cotton • Rubber

  5. Solutions • A solution can be any 2 phases (solid, liquid, or gas) mixed together • Examples: • Brass: solution of zinc metal (s) dissolved in copper metal (s) • Alloy: solid or liquid mixture of two or more metals • Pop: carbon dioxide (gas) dissolved in water (l) • Vinegar: acetic acid (l) dissolved in water (l)

  6. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  7. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  8. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  9. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  10. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  11. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  12. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  13. Identifying the solute and solvent Identify the solute(s) and solvent in each solution. Underline the solute and circle the solvent. Remember: SOLUTE dissolves in a SOLVENT. Ocean Water: salt and water Antifreeze: Water and ethylene glycol Soda pop: syrup, water, and CO2 gas Gold Jewelry: gold and copper Air: Nitrogen, oxygen, other gases Kool-Aid: powder, sugar, and water Sterling Silver: silver and copper

  14. Solubility • Solubility: the maximum quantity of a solute (in grams) that can be dissolved in a given amount of solvent (in grams) at a specified temperature.

  15. Concentration • Concentration: how much solute is in a solution • Concentrated solution: large amount of solute • Dilute solution: a small amount of solute Which solution is more concentrated?

  16. Concentration Unsaturated solution: a solution that can dissolve more solute Saturated solution: a solution in which no more solute can dissolve at the given temperature Supersaturated solution: solution that holds more solute than it normally would at a cooler temperature.

  17. 3 Factors that Affect Dissolving Increase surface area makes the solute dissolve more quickly.

  18. 3 Factors that Affect Dissolving Stirring: moves dissolved solute away so the rest can interact with the solvent

  19. 3 Factors that Affect Dissolving • Increase the temperature (Kinetic Energy): particles move faster and collide more often dissolving solute faster • Most gases become less soluble in water as the temperature increases.

  20. Methods to Separate Mixtures Evaporation or Distillation: Uses boiling points

  21. Methods to Separate Mixtures Magnetism: ideal for separating solids in which one of them has magnetic properties

  22. Methods to Separate Mixtures Centrifuge: uses density where layers are formed based on density of materials

  23. Methods to Separate Mixtures Filtering: separates large particles from smaller ones

  24. Methods to Separate Mixtures • Chromatography: The various components of the mixture travel at different speeds, causing them to separate. • Example: Paper Chromatography

More Related