CH 7

Question 1

Arrhenius Theory 1887

Answer 1

Acid: a substance that liberate (free) hydrogen ions
Base: substance that supplies hydroxyl ions on dissociation

Question 2

Bronsted Lowry theory 1923

Answer 2

is more useful than the Arrhenius theory because it represents the ionization in both an aqueous and non-aqueous system

Acid: is a substance both charged or uncharged capable of donating a proton

Base: is a substance charger or uncharged capable if accepting a proton from an acid

Question 3

strength of acids and bases

Answer 3

the relative tendencies of the substances to give up and take on protons

strength varies with the solvent

acid is strong= (high tendency) readily gives up protons
base is strong= readily accepts protons
acid is weak= (low tendency) readily gives up protons to SMALL extent

Question 4

strength of acid

Answer 4

it depends on not only the ability to give up protons but also ability of solvent to accept the protons from the acid (aka: BASIC STRENGTH of solvent)

Question 5

HCL

Answer 5

is a strong acid in water, because it readily gives up a proton

is a weak acid in glacial acetic acid

shows that strong and weak acid DEPENDS on solvent

Question 6

Acetic Acid

Answer 6

is a weak acid in water because it gives up protons readily only to a small extent

is a strong acid in liquid ammonia

shows that strong and weak acid DEPENDS on solvent

Question 7

solvent classifications

Answer 7

protophilic - basic solvent, accepting protons from solute (acetone, ether, liquid ammonia)

protogenic- proton donating compound (formic acid, acetic acid, sulfuric acid, liquid HCL, liquid HF)

amphiprotic- proton acceptors and proton donors (water and alcohol)

aprotic- hydrocarbons, neither accept or donate protons and is neutral, they can be useful for studying reaction free of solvent effects

Question 8

cations

Answer 8

NH4+ and h30+

Question 9

Anions

Answer 9

hso4- and ch3coo-

Question 10

neutral

Answer 10

HCL and NH3

Question 11

protolytic RXN

Answer 11

is protolysis

HCL+ H2O —> H30+ +Cl-
(acid 1)(base2)(acid 2)(base 1)

this is a IONIZATION Rxn

Question 12

types of rxn

Answer 12

neutralization
hydrolysis
displacement

Question 13

NH4+ +OH- —> h20 + NH3

Answer 13

neutralization

Question 14

H30+ + OH- —> h20 + h20

Answer 14

neutralization

Question 15

HCL + NH3—–> nh4+ + cl-

Answer 15

neutralization

Question 16

h20 + ch2coo- —-> ch2cooh + oh-

Answer 16

hydrolysis

Question 17

NH4+ + H20—->H30+ + NH3

Answer 17

HYDROLYSIS

Question 18

acid-base rxn

Answer 18

acid reacts with acid to form a new acid and base (transfer of protons, so it is also called protolytic or protlysis)

Question 19

h30+

Answer 19

hydronnuim ions, hydrated proton

Question 20

displacement rxn

Answer 20

a special type of neutralization involves the displacement of a weaker acid such as acetic acid from its salt.

Question 21

Lewis electronic theory

Answer 21

acid is a molecule or ions that accepts an electron pair to form a covalent bond

base is a substance provides the pair of unshared electrons by which the base coordinates with an acid

the H+ proton(acid) will attach to the unshared electron pair of N on NH3 to make NH4+

you do not need to contain hydrogen ions or hydroxyl ions to be and acid or base according to LET

Question 22

acid-base equilibria

Answer 22

equilibrium: a balance between two opposing forces of action. it is dynamic equilibrium of the two velocities

reversible reaction (weak electrolytes)

concentration of reactants and products are constant

Question 23

Ionic equilbria

Answer 23

bronsted lowry

Question 24

irreversible

Answer 24

to completetion

Question 25

Acid base equilbria of acetic acid

Answer 25

HAc + h20 -><- h30+ + Ac-

Question 26

Rf

Answer 26

the rate/velocity/speed of the forward reaction is proportional to the concentration of the reactants

Rf= k1 x [HAc]1 x [h20]1

k= specific reaction rate

Question 27

Rr

Answer 27

the reverse reaction of reformation of unionized acetic acid is proportional to concentration of reactants

Rr= K2 x [h30+]1 x [Ac-]1

Question 28

Rf=Rr

Answer 28

k1 x [HAc]1 x [h20]1=K2 x [h30+]1 x [Ac-]1

k=k1/k2=product=reactants

Question 29

dissociation constant

Answer 29

ka=55.3 k=product/HAc

Question 30

summary of ionization of weak acids

Answer 30

uncharged weak acid (HB) in water

HB + H2O —><— H30+B-

Dissociation constant:
Ka= [h30+][b-]/ HB

[H30+] =sqrt kaC

Question 31

x^2/c-x

Answer 31

x^2 is the value in moles of two products dissociated

x is dissociation # in moles

c is original amount in moles/liter or M

Question 32

dissociation of Salt

Answer 32

ammonium chloride in water

Nh4+cl- —> NH4+ + Cl-

NH4+ +H20 –><— H30+ + NH3

ka= [h30+] [NH3]/[NH4+]

Question 33

Summary of ionization of weak acids

Answer 33

charged weak acid BH+ in water
BH+ +H20–><— h30+ +B

dissociation contant [h30+][B]/ bh+

Question 34

ionization of weak bases

Answer 34

NON-ionized weak base,B, in water

B + H20—><— OH- +BH+

KB= [OH-] [BH+]/[B]

[oh-] =sqrt KbC

Question 35

dissociation of salt (base)

Answer 35

sodium acetate in water

Na+ CH3COO- —> Na+ +CH3COO-

dissociation:
CH3COO- + h20—> OH- + CH3COOH

Kb= [OH-][CH3COOH]/CH3COO-

Question 36

summary of ionization of weak bases

Answer 36

anionic base (B-) in water

B- +H2O –><– OH- +HB

Dissociation constant
kb= [OH]- [HB ]/ B-

Question 37

ionization of water

Answer 37

water
h20 + h20 —><— h30+ + OH-

dissociation constant and concentration
k= [h30+] [ OH-]/[h20]^2
kw= K x [h20]^2

kw= [h30+] [ OH-]= 1 x 10^-14 at 25 c
[h30+]= [oh-]= 1 x 10^-7

water concentration is 1 x 10^-7 meaning can be OH- and H30+

Kw or constant of water is 1 x 10^-14

if we add more acid to pure water, the increase in hydrogen ions will decrease the hydroxyl ions so that water remain constant Kw at 1 x 10-14 at 25c

Question 38

ion product of water at varying temps

Answer 38

25C, kw= 1 x 10^-14
pKw= 14 at 25C

if you add heat to an endothermic process, the position of equilibrium moves to the right (in forward). Ka increases! Since pKa=−logKa , an increase in Ka means a decrease in pKa .

increasing the temp from 60 to 70C, the Kw or constant of water will INCREASE( increase in temp, increases the rate of the forward rxn and dissociation constant). but the pkw will decrease with increasing temp

decrease in temp= increase Pka and decrease the ka, it production of ions REDUCE

Kw will increase temp rxn and is endothermic, more product is being favored in the forward rxn at high temp

at high temp more water molecules gain enough energy to break and dissociate and this leads to increase in concentration of OH- and H+ ions

Question 39

relationship between Kb and ka

Answer 39

dissociation constant of weak acid (uncharged) HB and H20
HB +H20= h30+ + B
Ka= [B][h30+]/[HB]

dissociation constant of anionic base, B-
B- +h20= oh- hb
kb=[oh-][hb]/[b-]

=KaKb
=[OH-][HB]/[B-]=[B][h30+]/[HB]
=[OH-][H3O+]=Kw

=Kw= KaKb
=kb=kw/ka
=ka= kw/kb

Question 40

ionization of polyprotric electrolytes

Answer 40

monoprotic electrolytes :
acids donate a single proton
bases accept a single proton

Polyprotic electrolytes: capable of donating and accepting two or protons
-diprotic (disbasic) acid (ex. carbonic acid) ionizes in 2 stages
-triprotic acid (trisbasic) acid (ex.phospohric acid) -ionizes in 3 stages

• look at notes for phosphoric acid equations and Ka and Kb values

Question 41

ampholyte

Answer 41

a species can function either as a acid or base, amphoteric in nature

ex. glycine hydrochloride in water

+NH3CH2COOH +H20= +NH3CH2COO- +H3O+

+NH3CH2COO- +H20= NH2CH2COO- +H30+

+NH3CH2COO- +H30+= +nh3ch2cooh +OH-

api can be a weak acid or base

+NH3CH2COO- can act as a acid or base

Question 42

H2PO4- AND H2PO4 2-

Answer 42

ampholytes- acid or base

Question 43

+NH3CH2COO-

Answer 43

is the amphoteric species, is called a zwitterion, it is different from the phosphoric species(amphoteric specifies) in that it carries a positive and negative charge. the whole molecule is electrically neutral

Question 44

isoelectric point

Answer 44

is the net movement of the solute molecules in the electric field is negligible.

ph at which the zwitterion concentration is maximum

Question 45

Sorensens pH scale

Answer 45

the common logarithm of the reciprocal of the hydrogen ion concentration, aka hydrogen ion potential.

pH= log (1/H30+)
pH=log 1-log [H30+]
pH= -log[h3o+]

value of log 1 is 0

Question 46

the pH and corresponding hydrogen and hydroxyl ion concentrations

Answer 46

pH of 7 (NEUTRAL) the [h30+] and [oh-] are 10^-7moles/liter

at pH of 0 (highly acidic), [h30+] 10^0=1and [OH-]=10^-14 moles/liter

at a pH=14, [H30+] 10^-14, 10^0=1[OH-]

A pH of 7 is neutral. A decrease in pH below 7 shows an increase in acidity (hydrogen ions), while an increase in pH above 7 shows an increase in alkalinity (hydroxyl ions). Each pH unit represents a 10-fold change in concentration.

Question 47

pk and pOH

Answer 47

pH + pOH= pKw
pKa +pKb= pKw

Question 48

pKa

Answer 48

pH,
-logka

Question 49

pKb

Answer 49

pOH,
-log[oh-]

Question 50

pk

Answer 50

is dissociation exponent

Question 51

hydrogen ion concentration of weak acid

Answer 51

[h30+] = sq rt KaC

Question 52

hydroxyl ion concentration of weak base

Answer 52

[OH-]= sq rt KbC