Solubility Do Now: p.4. Remember…likes dissolve like Things that dissolve in water – Soluble ionic – Acids (ex HCl) – Bases (ex. NaOH) – Polar covalent.

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Presentation transcript:

Solubility Do Now: p.4

Remember…likes dissolve like Things that dissolve in water – Soluble ionic – Acids (ex HCl) – Bases (ex. NaOH) – Polar covalent molecules

When Ionic Compound dissolved in water they dissociate= hydration Cl -

Identify the nature of each of the following as PC, NPC, or ionic. CH 4 NaCl H 2 O CCl 4 CH 3 OH H 2 S CaBr 2 C 6 H 14 NH 3 NH 4 OH C 4 H 10 PH 3 CH 3 CH 2 OH Nonpolar Cov. Ionic Polar Covalent Nonpolar Cov. Polar Cov. Ionic Nonpolar Cov. Polar Cov. Ionic Nonpolar Cov. Polar Cov. Now try p.8

Solubility = the max amount of solute that can be dissolved in a solvent Many solids and gases dissolve in water As you increase the temperature, you can dissolve more solid Does this work the same with gas? NOT the same for gases – as you increase temp, gas molecules KE Where can you go to find if an ionic compound is soluble or insoluble in water? Table F

Summary: Factors Affecting Solubility Nature of the solvent and the solute: Nature of the solvent and the solute: LIKE DISSOLVES LIKE Temperature Temperature Pressure (for systems with gases) Pressure (for systems with gases)

Factors that affect the rate at which something dissolves Temperature Stirring or agitation Surface area (crushing/grinding)

Solubility curves show the relationship between solubility and temperature. Can you guess which of these compounds are gases?! How do you know?!

Reading a solubility curve?! Table G tells you the max amount of solute you can dissolve in 100 g of H 2 O at a given temperature

How much KCl will dissolve in 100g of water at 50  C? Problem: X = 42g KCl

How much KCl will dissolve in 300g of water at 50  C? Hint: Use the graph to set up a proportion Problem: 42 g KCl = X g KCl 100 g H 2 O 300 g H 2 O X = 126g KCl

How much H 2 O is required to just dissolve 200 g NaNO 3 at 20  C? 88 g NaNO 3 = 100 g H 2 O 200 g NaNO 3 X g of H 2 O X = g H 2 O

On the line – saturated (full, cannot hold any more solute Below the line – unsaturated (can hold more solute) Above the line – supersaturated (holding more solute then it should – very unstable)

Unsaturated solution

Saturated Solution Is in equilibrium between solid particles dissociating into ions and ions forming crystals Cl - (aq)

Supersaturated Solution very unstable ( this picture is showing the addition of 100 g of glucose to 100ml of water at 25 0 C) Note: at 25 0 C, only 91g of glucose will dissolve in 100 ml of water Let’s see what happens Let’s see what happens

Precipitation problems A saturated solution of KNO 3 is prepared in 100 g of water at 50  C and then cooled down to 10  C. How much KNO 3 will precipitate? A saturated solution of KNO 3 is prepared in 100 g of water at 50  C and then cooled down to 10  C. How much KNO 3 will precipitate?

88 g KNO 3 in 100 g H 2 O at 50  C 20 g KNO 3 in 100 g H 2 O at 10  C 88 g – 20 g = 68 g KNO 3 precipitates