Reactions in Aqueous Solutions. Aqueous Solutions aqueous solutions -solute dissolved in water...

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Reactions in Aqueous Reactions in Aqueous Solutions Solutions

Aqueous Solutions Aqueous Solutions aqueous solutions -solute dissolved in wateraqueous solutions -solute dissolved in water

nonelectrolytes - aqueous solutions do not nonelectrolytes - aqueous solutions do not conduct electricityconduct electricity

CC22HH55OH - ethanolOH - ethanol

CH3 CH2OH

Aqueous Solutions Aqueous Solutions CC66HH1212OO66 - glucose (blood sugar) - glucose (blood sugar)

Aqueous Solutions Aqueous Solutions CC1212HH2222OO1111 - sucrose (table sugar) - sucrose (table sugar)

Molecular compounds in water (e.g., CHMolecular compounds in water (e.g., CH33OH): OH): no ions are formed.no ions are formed.

If there are no ions in solution, there is If there are no ions in solution, there is nothing to transport electric charge.nothing to transport electric charge.

Properties of Aqueous Solution

Ionic Compounds in WaterIonic Compounds in Water

Ions dissociate in water.Ions dissociate in water.

In solution, each ion is surrounded by water In solution, each ion is surrounded by water molecules.molecules.

Transport of ions through solution causes Transport of ions through solution causes flow of current.flow of current.

Strong electrolytes: completely dissociate in Strong electrolytes: completely dissociate in solution.solution.For example:For example:

Weak electrolytes: produce a small Weak electrolytes: produce a small concentration of ions when they dissolve.concentration of ions when they dissolve.These ions exist in These ions exist in equilibriumequilibrium with the with the unionized substance.unionized substance.For example:For example:

HCl(aq) H+(aq) + Cl-(aq)

HC2H3O2(aq) H+(aq) + C2H3O2-(aq)

strong electrolytes - extremely good strong electrolytes - extremely good conductors of electricityconductors of electricity

HCl, HNOHCl, HNO33, etc., etc. strong soluble acidsstrong soluble acids

NaOH, KOH, etc.NaOH, KOH, etc.strong soluble basesstrong soluble bases

NaCl, KBr, etc.NaCl, KBr, etc.soluble ionic saltssoluble ionic saltsionize in water essentially 100%ionize in water essentially 100%

weak electrolytesweak electrolytes

CHCH33COOH, (COOH)COOH, (COOH)22 weak acidsweak acids

NHNH33, Fe(OH), Fe(OH)33 weak basesweak bases

some soluble covalent saltssome soluble covalent saltsionize in water much less than 100%ionize in water much less than 100%

Strong and Weak Acidsacids generate Hacids generate H++ in aqueous solutions in aqueous solutions

strong acids ionize 100% in waterstrong acids ionize 100% in water

Strong and Weak Acidsacids generate Hacids generate H++ in aqueous solutions in aqueous solutions

strong acids ionize 100% in waterstrong acids ionize 100% in water

aq3aqOH

-aq3aq3

100%2 3

NO + H HNO

NO + OH OH HNO

%100g Cl H HCl

Strong and Weak Acids

entire list of strong water soluble entire list of strong water soluble acidsacids

HCl - hydrochloric acidHCl - hydrochloric acidHBr - hydrobromic acidHBr - hydrobromic acidHI - hydroiodic acidHI - hydroiodic acid

HNOHNO33 - nitric acid - nitric acid

HH22SOSO44 - sulfuric acid - sulfuric acid

HClOHClO33 - chloric acid - chloric acid

HClOHClO44 - perchloric acid - perchloric acid

Strong and Weak Acidsweak acids ionize less than 100% in waterweak acids ionize less than 100% in water

10% or less!10% or less!

some common weak acidssome common weak acidsHF - hydrofluoric acidHF - hydrofluoric acid

CHCH33COOH - acetic acid (vinegar)COOH - acetic acid (vinegar)

HH22COCO33 - carbonic acid (soda water) - carbonic acid (soda water)

HH22SOSO33 - sulfurous acid - sulfurous acid

HNOHNO22 - nitrous acid - nitrous acid

HH33POPO44 - phosphoric acid - phosphoric acid

Strong and Weak Acids

weak acids ionize as reversible or weak acids ionize as reversible or equilibrium reactionsequilibrium reactionsCHCH33COOH acetic acid COOH acetic acid

why they ionize less than 100%why they ionize less than 100%

aq-aq3

3 H + COOCH COOHCH

Strong Soluble BasesStrong Soluble Basesbases produce OHbases produce OH-- ions in solution ions in solution

strong soluble bases ionize 100% in strong soluble bases ionize 100% in waterwater

KOH K (aq) + OH (aq)

Ba(OH) Ba (aq) + 2 OH (aq)

Strong Soluble Basesentire list of strong soluble basesentire list of strong soluble bases

LiOH - lithium hydroxideLiOH - lithium hydroxideNaOH - sodium hydroxideNaOH - sodium hydroxideKOH - potassium hydroxideKOH - potassium hydroxideRbOH - rubidium hydroxideRbOH - rubidium hydroxideCsOH - cesium hydroxideCsOH - cesium hydroxideCa(OH)Ca(OH)22 - calcium hydroxide - calcium hydroxide

Sr (OH)Sr (OH)22 - strontium hydroxide - strontium hydroxide

Ba (OH)Ba (OH)22 - barium hydroxide - barium hydroxide

Insoluble Bases

ionic but insoluble in water ionic but insoluble in water

not very basicnot very basicCu(OH)Cu(OH)22 - copper (II) hydroxide - copper (II) hydroxide

Fe(OH)Fe(OH)22 - iron (II) hydroxide - iron (II) hydroxide

Fe(OH)Fe(OH)3 3 - iron (III) hydroxide- iron (III) hydroxide

Zn(OH)Zn(OH)22 - zinc (II) hydroxide - zinc (II) hydroxide

Mg(OH)Mg(OH)22 - magnesium hydroxide - magnesium hydroxide

Weak Bases

covalent compounds that ionize slightly covalent compounds that ionize slightly in waterin water

NHNH33 - ammonia is most common - ammonia is most common

-(aq)aq42g3 OH + NH OH + NH

Solubility Rulesstrong acidsstrong acids

completely water solublecompletely water soluble

strong basesstrong basescompletely water solublecompletely water soluble

soluble ionic saltssoluble ionic saltsSolubility Rules found on my website or in Solubility Rules found on my website or in

the bookthe book

Dissociation = pre-formed ions in solid Dissociation = pre-formed ions in solid move apart in solution.move apart in solution.

Ionization = neutral substance forms Ionization = neutral substance forms ions in solution.ions in solution.

AcidAcid = substances that ionizes to = substances that ionizes to form form HH++ in solution in solution (e.g. (e.g. HCl, HNOHCl, HNO33, CH, CH33COCO22HH, , lemon, lime, vitamin C).lemon, lime, vitamin C).

Bases Bases = = substances that substances that react withreact with the Hthe H++ ions formed by acids (e.g. ions formed by acids (e.g. NHNH33, , Drano™, Milk of Magnesia™).Drano™, Milk of Magnesia™).

Acids, Bases, and Salts

Reactions in Aqueous Solutions

molecular equationsmolecular equations all reactants & products in molecular or all reactants & products in molecular or

ionic formionic form

total ionic equationtotal ionic equation ions as they exist in solutionions as they exist in solution

(s)(aq)4(aq)4(s) Cu + ZnSO CuSO + Zn

(s)-2aq4

2aq(s) Cu +SO+ ZnSO+ Cu+Zn

Reactions in Aqueous Solutions

net ionic equationnet ionic equation shows ions that participate in reaction and removes shows ions that participate in reaction and removes

spectator ionsspectator ions

spectator ions do not participate in the reactionspectator ions do not participate in the reaction

(s)2aq

2aq(s) Cu + ZnCu + Zn

Exchange or Metathesis reactions involve Exchange or Metathesis reactions involve swapping ions in solution:swapping ions in solution:

AX + BY AX + BY AY + BX. AY + BX.Exchange reactions will lead to a change in Exchange reactions will lead to a change in solution if one of three things occurs:solution if one of three things occurs:

an insoluble solid is formed (precipitate),an insoluble solid is formed (precipitate),

weak or nonelectrolytes are formed, orweak or nonelectrolytes are formed, or

an insoluble gas is formed.an insoluble gas is formed.

Displacement Reactions

Precipitation Reactionsform an insoluble compoundform an insoluble compound

crystalscrystals

molecular equationmolecular equation

(s)3)aq(3aq)(32(aq)23 CaCO +KNO 2 COK + )Ca(NO

Precipitation Reactionsform an insoluble compoundform an insoluble compound

crystalscrystals

total ionic reactiontotal ionic reaction

(s)3)aq(3aq)(32(aq)23 CaCO +KNO 2 COK + )Ca(NO

Precipitation Reactionstotal ionic reactiontotal ionic reaction

-2aq3aq

CaCO NO 2K 2

COK 2 NO 2 Ca

Precipitation Reactionstotal ionic reactiontotal ionic reaction

net ionic reactionnet ionic reaction

-2aq3aq

CaCO NO 2K 2

COK 2 NO 2 Ca

Precipitation Reactionsnet ionic reactionnet ionic reaction

(s)3-2aq3

2aq CaCO CO +Ca

Neutralization occurs when a solution of an Neutralization occurs when a solution of an acidacid and a and a basebase are mixed: are mixed:

HCl(HCl(aqaq)) + + NaOH(NaOH(aqaq)) H H22O(O(ll) + NaCl() + NaCl(aqaq))

Notice we form a salt (NaCl) and water.Notice we form a salt (NaCl) and water.

Salt = ionic compound whose cation comes Salt = ionic compound whose cation comes from a base and anion from an acid.from a base and anion from an acid.

Neutralization between acid and metal Neutralization between acid and metal hydroxide produces water and a salt.hydroxide produces water and a salt.

Acids, Bases, and Salts

Acid-Base Reactionsacid + base salt + wateracid + base salt + water

recall the acids and bases from beforerecall the acids and bases from before

Acid-Base Reactionsacid + base salt + wateracid + base salt + water

recall the acids and bases from beforerecall the acids and bases from before

total ionic equationtotal ionic equation

)(2 (aq)(aq)(aq) OH + KBr KOH + HBr

Acid-Base Reactionstotal ionic equationtotal ionic equation

net ionic equationnet ionic equation

)(2-aqaq

-aqaq OH + Br+KOH+K+Br+H

Acid-Base Reactionsnet ionic equationnet ionic equation

)(2-aqaq OH OH +H

Acid-Base Reactionsmolecular equationmolecular equation

)(2aq)(23(aq)3(aq)2 OH 2 + )Ca(NOHNO 2 + Ca(OH)

Acid-Base Reactionsmolecular equationmolecular equation

total ionic equationtotal ionic equation

)(2aq)(23(aq)3(aq)2 OH 2 + )Ca(NOHNO 2 + Ca(OH)

Acid-Base Reactionstotal ionic equationtotal ionic equation

net ionic equationnet ionic equation

aq32aq

-aq3aq

2aq OH 2 +NO 2+ CaNO 2+ H 2+OH 2+Ca

Acid-Base Reactionsnet ionic equationnet ionic equation

)(2aq-aq

OH H+OH

betteror

OH 2 H 2+OH 2

Solution = solute dissolved in solvent.Solution = solute dissolved in solvent. Solute: present in smallest amount.Solute: present in smallest amount. Water as solvent = aqueous solutions.Water as solvent = aqueous solutions. Change concentration by using different Change concentration by using different

amounts of solute and solvent.amounts of solute and solvent.Molarity: Moles of solute per liter of Molarity: Moles of solute per liter of

solution.solution. If we know: molarity and liters of If we know: molarity and liters of

solution, we can calculate moles (and solution, we can calculate moles (and mass) of solute.mass) of solute.

Solution Composition

Molarity: Moles of solute per liter of Molarity: Moles of solute per liter of solution.solution.

Solution Composition

Concentration of Solutions solution - one substance dissolved in solution - one substance dissolved in

another, commonly one is a liquidanother, commonly one is a liquid concentration - amount of solute concentration - amount of solute

dissolved in a solventdissolved in a solvent• ““sweet tea”sweet tea”• mixed drinksmixed drinks

units of concentrationunits of concentration

% by mass of solute = mass of solute

mass of solutionmass of solution = mass of solute + mass of solvent

Molarity (Molar Concentration) molarity = mol solute/L of solution = molarity = mol solute/L of solution = MM

Calculate the molarity of a solution that Calculate the molarity of a solution that contains 12.5 g of sulfuric acid in 1.75 L contains 12.5 g of sulfuric acid in 1.75 L of solution.of solution.

Molarity (Molar Concentration) molarity = mol solute/L of solution = molarity = mol solute/L of solution = MM

Calculate the molarity of a solution that Calculate the molarity of a solution that contains 12.5 g of sulfuric acid in 1.75 L contains 12.5 g of sulfuric acid in 1.75 L of solution.of solution.

424242

SOH M 0728.0

SOH g 98.1

SOH mol 1 SOH g 12.5

nsol' L

SOH mol ?

Molarity (Molar Concentration) Determine the mass of calcium nitrate Determine the mass of calcium nitrate

required to prepare 3.50 L of 0.800 M required to prepare 3.50 L of 0.800 M Ca(NOCa(NO33))2 2 . .

Molarity (Molar Concentration) Determine the mass of calcium nitrate Determine the mass of calcium nitrate

required to prepare 3.50 L of 0.800 M required to prepare 3.50 L of 0.800 M Ca(NOCa(NO33))2 2 . .

? g Ca(NO L 0.800 mol Ca(NO

L164 g Ca(NO

mol Ca(NO g Ca(NO

Dilution of Solutions take a concentrated solution and add water to ittake a concentrated solution and add water to it

• make tea “less sweet”make tea “less sweet” number of moles of solute remains constantnumber of moles of solute remains constant MM11VV11 = M = M22VV22 works because # of moles is works because # of moles is

constantconstant If 10 mL of 12 M HCl is added to enough water If 10 mL of 12 M HCl is added to enough water

to give 100 mL of solution, what is concentration to give 100 mL of solution, what is concentration of solution?of solution?

Dilution of Solutions take a concentrated solution and add water to ittake a concentrated solution and add water to it

• make tea “less sweet”make tea “less sweet” number of moles of solute remains constantnumber of moles of solute remains constant MM11VV11 = M = M22VV22 works because # of moles is constant works because # of moles is constant If 10 mL of 12 M HCl is added to enough water to If 10 mL of 12 M HCl is added to enough water to

give 100 mL of solution, what is concentration of give 100 mL of solution, what is concentration of solution?solution?

(10 mL)(12 M) = M(10 mL)(12 M) = M22(100 mL)(100 mL)

MM2 2 = 1.2 M HCl= 1.2 M HCl

Dilution of Solutions What volume of 18.0 M sulfuric acid is What volume of 18.0 M sulfuric acid is

required to make 2.50 L of a 2.40 M required to make 2.50 L of a 2.40 M sulfuric acid solution?sulfuric acid solution?

Dilution of Solutions What volume of 18.0 M sulfuric acid is What volume of 18.0 M sulfuric acid is

required to make 2.50 L of a 2.40 M required to make 2.50 L of a 2.40 M sulfuric acid solution?sulfuric acid solution?

M x V M x V VM x V

V2.50 L x 2.40 M

18.0 M0.333 L or 333 mL

1 1 2 2 12 2

Stoichiometry with Solutions

There are two different types of units: •laboratory units (macroscopic units: measure in lab);•chemical units (microscopic units: relate to moles).

Always convert the laboratory units into chemical units first.

•Grams are converted to moles using molar mass.•Volume or molarity are converted into moles using M = mol/L.

Use the stoichiometric coefficients to move between reactants and product.

Stoichiometry with Solutions

Stoichiometry with Solutions What volume of 0.500 M BaClWhat volume of 0.500 M BaCl22 is is

required to completely react with 4.32 g required to completely react with 4.32 g of Naof Na22SOSO44??

L0.0608 BaClmol 0.500

BaCl L1

SONa mol 1

BaClmol 1

SONa g 142

SONa mol 1 SOgNa 4.32 BaCl L?

NaCl 2 + BaSO BaCl+ SONa

Stoichiometry with Solutions What volume of 0.200 M NaOH will react with What volume of 0.200 M NaOH will react with

50.0 mL 0f 0.200 M aluminum nitrate? What 50.0 mL 0f 0.200 M aluminum nitrate? What mass of aluminum hydroxide precipitates?mass of aluminum hydroxide precipitates?

Al(NOAl(NO33))33 + 3 NaOH + 3 NaOH Al(OH) Al(OH)33 + 3 NaNO + 3 NaNO33

Stoichiometry with Solutions What volume of 0.200 M NaOH will react with What volume of 0.200 M NaOH will react with

50.0 mL 0f 0.200 M aluminum nitrate? What 50.0 mL 0f 0.200 M aluminum nitrate? What mass of aluminum hydroxide precipitates?mass of aluminum hydroxide precipitates?

Al(NOAl(NO33))33 + 3 NaOH + 3 NaOH Al(OH) Al(OH)33 + 3 NaNO + 3 NaNO33

? mL NaOH = 50.0 mL Al(NO ) sol' n

0.200 mol Al(NO ) sol' n

1 L Al(NO ) sol' n

3 mol NaOH1 mol Al(NO )

L NaOH0.200 mol NaOH

150 mL NaOH sol' n

3 3 3 3

Stoichiometry in Solution

What mass of Al(OH)What mass of Al(OH)33 precipitates in (a)? precipitates in (a)?

Stoichiometry in Solution

What mass of Al(OH)What mass of Al(OH)33 precipitates in (a)? precipitates in (a)?

? g Al(OH) 50.0 mL Al(NO ) sol'n

0.200 mol Al(NO )

L Al(NO ) sol'n

1 mol Al(OH)

1 mol Al(NO )

g Al(OH)

1mol Al(OH)

g Al(OH)

Titrations

Suppose we know the molarity of a NaOH solution and we want to find the molarity of an HCl solution.We know:

molarity of NaOH, volume of HCl.What do we want?

Molarity of HCl.What do we do?

Take a known volume of the HCl solution, measure the mL of NaOH required to react completely with the HCl.

Titrations

What do we get?Volume of NaOH. We know molarity of the NaOH, we can calculate moles of NaOH.

Next step?We also know HCl + NaOH NaCl + H2O. Therefore, we know moles of HCl.

Can we finish?Knowing mol(HCl) and volume of HCl (20.0 mL above), we can calculate the molarity.

Titrations What is the molarity of a KOH solution if What is the molarity of a KOH solution if

38.7 mL of KOH solution is required to 38.7 mL of KOH solution is required to react with 43.2 mL of 0.223 M HCl?react with 43.2 mL of 0.223 M HCl?

KOH M 249.0KOH mL 0.0387

KOH mol 0.00963

KOH mol 00963.0HCl mol 1

KOH mol 1HCl mol 0.00963

HCl mol 0.00963 = HCl M 0.223 L 0.0432

OH + KCl HCl + KOH 2

Titrations What is the molarity of a barium What is the molarity of a barium

hydroxide solution if 44.1 mL of 0.103 hydroxide solution if 44.1 mL of 0.103 MM HCl is required to react with 38.3 mL of HCl is required to react with 38.3 mL of the Ba(OH)the Ba(OH)22 solution? solution?

Ba(OH) mol 2.27x10

HCl mol 2

Ba(OH) mol 1HCl mol 1054.4

HCl mol 4.54x10 = HCl) 1L

mol 0.103)(

1HCl)( mL 1(44.

OH 2 + BaCl HCl 2 + Ba(OH)

Ba(OH) M 0.0593 Ba(OH) mL 0.0383

Ba(OH) mol 2.27x10

OH 2 + BaCl HCl 2 + Ba(OH)

Synthesis Question

Nylon is made by the reaction of Nylon is made by the reaction of hexamethylene diammine hexamethylene diammine

with adipic acidwith adipic acidCH2

CH2CH2

CH2NH2

Synthesis Question in a 1 to 1 mole ratio. The structure of in a 1 to 1 mole ratio. The structure of

nylon is:nylon is:

where the value of n is typically where the value of n is typically 450,000. On a daily basis, a DuPont 450,000. On a daily basis, a DuPont factory makes 1.5 million pounds of factory makes 1.5 million pounds of nylon. How many pounds of nylon. How many pounds of hexamethylene diamine and adipic acid hexamethylene diamine and adipic acid must they have available in the plant must they have available in the plant each day?each day?

NH ** n

Group Activity

Manganese dioxide, potassium hydroxide Manganese dioxide, potassium hydroxide and oxygen react in the following fashion:and oxygen react in the following fashion:

A mixture of 272.9 g of MnOA mixture of 272.9 g of MnO22, 26.6 L of , 26.6 L of 0.250 M KOH, and 41.92 g of O0.250 M KOH, and 41.92 g of O22 is allowed is allowed to react as shown above. After the to react as shown above. After the reaction is finished, 347.6 g of Kreaction is finished, 347.6 g of K22MnOMnO44 is is separated from the reaction mixture. separated from the reaction mixture. What is the per cent yield of this reaction?What is the per cent yield of this reaction?

OH 2 KMnO 4 O 3 + KOH 4 + MnO 4 2422

Reactions in Aqueous Solutions. Aqueous Solutions aqueous solutions -solute dissolved in water...

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