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solutions - Chem1

SolutionsAChem1 ReferenceTextStephen K. LowerSimon Fraser UniversityContents1 Solutions22 Types of Gaseous solutions .. solutions of gases in liquids .. 42. 3 solutions of liquids in liquids .. solutions of molecular solids in liquids .. solutions of ionic solids in water .. 53 Methods of expressing the concentration of a Parts-per concentration .. Weight/volume and volume/volume basis .. Molarity: mole/volume basis .. Mole fraction: mole/mole basis .. Molality: mole/weight basis .. 94 Colligative properties: escaping tendency of the Vapor pressure of solutions : Raoult s law.

•1Solutions 1 Solutions Solutions are homogeneous (single-phase) mixtures of two or more components. They are ex-tremely important in Chemistry because they allow intimate and varied encounters between

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Transcription of solutions - Chem1

1 SolutionsAChem1 ReferenceTextStephen K. LowerSimon Fraser UniversityContents1 Solutions22 Types of Gaseous solutions .. solutions of gases in liquids .. 42. 3 solutions of liquids in liquids .. solutions of molecular solids in liquids .. solutions of ionic solids in water .. 53 Methods of expressing the concentration of a Parts-per concentration .. Weight/volume and volume/volume basis .. Molarity: mole/volume basis .. Mole fraction: mole/mole basis .. Molality: mole/weight basis .. 94 Colligative properties: escaping tendency of the Vapor pressure of solutions : Raoult s law.

2 Boiling point elevation .. 114. 3 Freezing point depression .. Colligative properties and molecular weight determinations .. 14 5 solutions of volatile solutions of volatile liquids .. Distillation .. 155. 3 solutions of gases in liquids: Henry s law .. Raoult s law and Henry s law .. 18 CONTENTS6 Osmosis and osmotic Diffusion and osmotic flow .. Osmotic pressure .. 206. 3 Effects of temperature and concentration on osmotic pressure .. Physiological aspects of osmosis .. Molecular weight determination .. 227 Ions in aqueous Water: a familiar but extraordinary liquid.

3 23 Dipole moment of water .. 24 Dielectric constant of water .. Ionic species in aqueous solutions .. 26 Hydration .. 267. 3 Weak electrolytes .. 27 Incomplete dissociation and ion-pair formation .. Electrolytic solutions .. 27 Colligative properties of electrolytic solutions .. 28 How ions carry electricity through a solution .. 28 Molar conductivity of solutions .. 28 Chem1 GeneralChemistryReferenceText2 solutions 1 Solutions1 SolutionsSolutions are homogeneous (single-phase) mixtures of two or more components. They are ex-tremely important in Chemistry because they allow intimate and varied encounters betweenmolecules of different kinds, a condition that is essential for rapid chemical reactions to more explicit reasons can be cited for devoting a significant amount of time to the subjectof solutions :1.

4 For the reason stated above, most chemical reactions that are carried out in the laboratoryand in industry, and that occur in living organisms, take place in solutions are so common; very few pure substances are found in solutions provide a convenient and accurate means of introducing known small amountsof a substance to a reaction system. Advantage is taken of this in the process oftitration,for The physical properties of solutions are sensitively influenced by the balance betweenthe intermolecular forces of like and unlike (solvent and solute) molecules. The physicalproperties of solutions thus serve as useful experimental probes of these these intermolecular forces can have dramatic effects is made readily apparent by asimple example.

5 At 0 C and 1 atm pressure, one litre of water will dissolve 1300 litres ofammonia gas; this corresponds to a solubility of 58 mol L 1. Now if 58 mol of an ideal gas werecompressed so that it would fit into the same 1-liter volume (but without the water), averyhigh pressure would be required. (You should be able to estimate this pressure; try it!).If we actually attempt to compress pure NH3gas to the same degree, it would liquify, andthe vapor pressure of the liquid would be about 9 atm. In other words, the escaping tendencyof NH3molecules from H2O is only about 1/9th of what it is from liquid NH3.

6 One way ofinterpreting this is that the strong intermolecular (dipole-dipole) attractions between NH3andthe solvent H2O give rise to a force that has the effect of a negative pressure of 9 Types of solutionsWe usually think of a solution as a liquid; a mixture of a gas, liquid, or solidsolutein a liquidsolvent. Actually, solutions can exist as gases and solids as well. Gaseous mixtures don t requireany special consideration beyond what you learned about Dalton s Law earlier in the solutions are very common; most natural minerals and many alloys are solid knows that oil and water don t mix.

7 Actually, this is not strictly correct, sinceall substances have at least a slight tendency to dissolve in each other. This raises two importantand related questions: why do solutions tend to form in the first place, and what factors limittheir mutual solubilities?You may recall that in the earlier unit on phase equilibria, we pointed out that aggregationsof molecules that are moredisorderedtend to be the ones that are favored at higher temperature, Chem1 GeneralChemistryReferenceText3 solutions 2 Types of solutionssolutesolventenergy to dispersesoluteenergy to introduceinto solventincreaseinrandomnessgasgasnilnill argeliquid or solidgaslargenillargegasliquidnilvariesn egativegassolidnilendothermicnegativeliq uidliquidvariablevariablemoderateionic solidpolar liquidlargeexothermicsmallmolecular solidpolar liquidmoderatemoderatemoderatemolecular solidnonpolar liquid moderatesmallmoderateionic or covalent solid nonpolar liquid largesmallsmallTable 1.

8 Energetics of solution formationwhereas those that possess thelowest potential energyare favored at lower temperatures. Thisis a general principle that applies throughout the world of matter; the stable form at any giventemperature will always be that which leads to the best balance between low potential energyand high molecular see how these considerations are applied to solutions , think about the individual stepsthat must be carried out when a solute is dissolved in a solute must bedispersed; that is, its molecular units must be pulled apart. Thisrequiresenergy, and so this step always worksagainstsolution solute must be introduced into the this is energeticallyfavorable or unfavorable depends on the nature of the solute and solvent.

9 If the soluteis A and the solvent is B, then what is important is the strength of the attractive forcesbetween A-A and B-B molecules, compared to those between A-B pairs; if the latter aregreater, then the potential energy will be lower when the substances are mixed and solutionformation will be the sum of these two steps is exothermic, this will favor solution formation, but there is oneother factor to consider: Would the formation of a solution lead to an increase or a decrease indisorderon the molecular scale? The answer varies from case to case; mixing of different kindsof molecules always creates disorder, and substantially increasing the volume they occupy (aswhen a solid dissolves in a liquid) can have a very large effect.

10 Higher temperatures generallyfavor processes in which disorder is created, but tend to work against those in which disorder qualitative assessments of these three factors for various kinds of solute-solvent combi-nations are given in Table 2. We will explore several of these systems in more Gaseous solutionssoluteformula solubiliy, mol L 1atm 1ammoniaNH357carbon dioxide dioxide 2: Solubility of several gases in water at 25 Gaseous solutionsSince the energy associated with the mixing of two gases is negligible, the tendency to greaterdisorder dominates at all temperatures, and gases are miscible in all proportions.


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