mullis1 water: the universal solvent polarity makes water special. o atom is an electron “hog”...
TRANSCRIPT
![Page 1: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/1.jpg)
Mullis 1
Water: The Universal Solvent
• Polarity makes water special.
• O atom is an electron “hog” in the covalent bond it forms with 2 H atoms.
• Water has a positive end and a negative end.
• This makes it a good solvent for ionic solids.
OH H
Slightly positive
Slightly negative
![Page 2: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/2.jpg)
Mullis 2
Solutions
• Same as a homogeneous mixture
• Solvent = substance that takes in, or dissolves, another substance
• Solute = substance that is taken in, or dissolved by the first substance
• The 3 phases of matter can be paired together in 9 ways to make solutions.
![Page 3: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/3.jpg)
Mullis 3
Solutions and phases of matter
Solute (dissolved) (in) Solvent Example
Gas Gas O2 in N2 - Air
Gas Liquid CO2 in water
Gas Solid Hydrogen fuel storage
Liquid Gas Water in air
Liquid Liquid Acid in water (vinegar)
Liquid Solid Amalgam dental fillings (Hg in Ag)
Solid Gas Mothballs in air
Solid Liquid Salt water
Solid Solid Metal alloys - jewelry
![Page 4: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/4.jpg)
Mullis 4
Factors which affect solution rate and solubility
• Solution rate:– Temperature– Particle size– Movement
• Solubility:– Temperature– Pressure
![Page 5: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/5.jpg)
Mullis 5
Solubility
• Solids: Increased temp increases solubility.• Gases: Solubility in water decreases when
temperature increases.• Gases: Increased pressure increases
solubility.• More fizz in a soda bottle if you store with
lid on (increased pressure) and in the refrigerator (decreased temperature).
![Page 6: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/6.jpg)
Mullis 6
Concentration• Relationship between solute and solvent:• Concentration = volume solute/volume solvent• Relative concentration of solutions:1. Unsaturated: More solute can be dissolved at a given
temp. and pressure. May be dilute or concentrated.2. Saturated: Maximum solute a solvent will dissolve at
a given temp. and pressure.3. Supersaturated: More than the maximum solute a
solvent will dissolve at a given temp. and pressure. (Usually obtained by heating a saturated solution to very high temp and cooling slowly.)
![Page 7: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/7.jpg)
Mullis 7
Concentration• Concentration is the amount of solute dissolved in
an amount of solution.
• Molar concentration is called Molarity, or M.
• M = moles of solute
volume of solution in L
• If 2.0 moles NaCl is dissolved in 1 L of solution, its concentration is “two molar” and is expressed as 2.0 M NaCl.
![Page 8: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/8.jpg)
Mullis 8
Steps to make a 1 M solutionExample: 1 M NaOH solution
1. Calculate the mass needed. 1 mol NaOH 40.01 g NaOH = 40.01 g NaOH
1 mol NaOH 2. Measure this amount of NaOH into a beaker, then
dissolve in some solvent to dissolve it.3. Pour the solution into a 1.0 L volumetric flask.4. Rinse the weighing beaker with more solvent and add
to the flask.5. Add solvent until the solution meets the line
indicating 1.0 L.6. Stopper the flask and swirl, mix thoroughly.
![Page 9: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/9.jpg)
Mullis 9
Molality• Molal concentration is called molality, or m.
• m = moles of solute
mass of solvent in kg
• If 0.50 moles NaCl is dissolved in 1 kg of solution, its concentration is “zero point five molal” and is expressed as 0.50 m NaCl.
• 1000 g = 1 kg.
• For water, 1 g = 1 ml
1kg = 1000 ml = 1 L
![Page 10: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/10.jpg)
Mullis 10
Molality Example
• Molality is used when studying properties of solutions related to vapor pressures and temperature changes. The expression for concentration using m is unaffected by changes in temperature.
• What is the molality of a solution of 3.73g KCl in 100 g water?
3.73 g KCl 1 mol KCl = 0.05 moles KCl
74.55 g KCl
m = 0.05 moles KCl = 0.5 m KCl solution
0.100 kg H2O
![Page 11: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/11.jpg)
Mullis 11
Molarity Example
To produce 23.4 g of K2CrO4 from 6.0 M K2CrO4, what volume of the solution is needed?
Given: 23.4 g K2CrO4 needed
concentration of solution = 6 moles K2CrO4 per 1 L
Want: volume of K2CrO4 in solution
23.4 g K2CrO4 1 mol K2CrO4 = 0.120 mol K2CrO4
194.2 g K2CrO4
0.120 mol K2CrO4 1 L = 0.020 L K2CrO4 soln
6 mol K2CrO4
![Page 12: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/12.jpg)
Mullis 12
Molality example
How much iodine (in grams) must be added to prepare a 0.480 m solution of iodine in CCl4 if 100.0 g of CCl4 is used?
Given: m = 0.480 m I2 Want: mass of solute in g
solvent = 100.0 g CCl4 = 0.100 kg
I2 = 253.8 g/mol
0.480 mol I2 = x mol I2
1 kg CCl4 0.100 kg CCl4
(0.480 mol I2)(0.100) = x = 0.0480 mol I2
0.0480 mol I2 253.8 g I2 = 12.2 g I2
1 mol I2
![Page 13: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/13.jpg)
Mullis 13
Suspensions and Colloids
• Remember: A solution is a homogeneous mixture.
• Some mixtures are not solutions—It depends on the size of the particles.
• Large particles usually don’t make homogeneous mixtures.
• The names of 2 types of mixtures with large particles are suspensions and colloids.
![Page 14: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/14.jpg)
Mullis 14
Suspensions• A mixture in which some particles
will settle out is a suspension.• Gravity will eventually make large
particles sink.• Particles are large enough to be filtered
out.• Examples: Muddy water and salad
dressing.• Particles are large enough to reflect
light, so a beam of light will be visible in a suspension.
![Page 15: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/15.jpg)
Mullis 15
Comparing mixtures
• Solution = homogeneous, small particles
• Suspension = heterogeneous, large particles
• Colloid = in-between suspension and solution.– Is not completely homogeneous.– Examples: fog, homogenized milk,
toothpaste.
![Page 16: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/16.jpg)
Mullis 16
Colloids
• How can you tell is a mixture is a colloid?
• A beam of light will be visible when shone through a colloid (like a suspension).
• Particles do not separate or settle out after standing.
![Page 17: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/17.jpg)
Mullis 17
Colloids: 5 types• Sol
– Solid is dispersed in solid or liquid.– Examples: Clay, toothpaste, red glass
• Gel – Long particles that trap liquid inside.– Examples: Jam, jelly, gelatin dessert, hair gel
• Aerosol – Solid is dispersed in air.– Examples: Fog, some hair sprays
• Foam– Gas is dispersed in liquid.– Examples: Marshmallows, whipped cream
• Emulsion – Liquid is dispersed in liquid.– Examples: Milk, butter, some cosmetics
![Page 18: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/18.jpg)
Mullis 18
Comparing mixtures
• Solution = homogeneous, small particles
• Suspension = heterogeneous, large particles
• Colloid = in-between suspension and solution.– Is not completely homogeneous.– Examples: fog, homogenized milk,
toothpaste.
![Page 19: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/19.jpg)
Mullis 19
Solutes: Electrolytes• Electrolyte = Substance that dissolves in
water to give a solution that conducts electricity
• Mobile charged particles conduct electricity (ions)
• Soluble ionic compounds are electrolytes(Na+ and Cl-)
• Many acids are electrolytes
(HCl =>H3O+ and Cl-)
![Page 20: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/20.jpg)
Mullis 20
Solute-Solvent InteractionsLike dissolves like
• Polar dissolves polar Water + NaCl
• Nonpolar dissolves nonpolar CCl4 + motor oil
• Immiscible liquids (oil and vinegar)– Do not mix
– Liquid solutes and solvents that are not soluble in each other
• Miscible liquids (gas and oil)– Mix
– Liquids that dissolve freely in one another in any proportion
![Page 21: Mullis1 Water: The Universal Solvent Polarity makes water special. O atom is an electron “hog” in the covalent bond it forms with 2 H atoms. Water has](https://reader036.vdocuments.net/reader036/viewer/2022062713/56649f465503460f94c689f9/html5/thumbnails/21.jpg)
Mullis 21
Henry’s LawSolubility of gas in liquid
• The solubility of a gas is directly proportional to the partial pressure of that gas on the surface of the liquid.
• Soda bottle: – High pressure at the surface while the bottle is
closed, so lots of CO2 in the liquid– Open bottle, pressure on surface lowers to room
atmosphere and CO2 leaves the liquid
• High pressure = High gas concentration• Low pressure = low gas concentration