Chapter 10: Gravimetric Methods of Analysis

Question 1

are quantitative methods that are based on determining the mass of a pure compound to which the analyte is chemically related.

Answer 1

Gravimetric methods

Question 2

In this type of gravimetry, the analyte is separated from a solution of the sample as a precipitate and is converted to known composition that can be weighed.

Answer 2

precipitation gravimetry

Question 3

the analyte is separated from other constituents of a sample by converting it to a gas of known chemical composition. The mass of the gas then serves as a measure of the
analyte concentration.

Answer 3

volatilization gravimetry

Question 4

the analyte is separated by deposition on an electrode by an electrical current. The mass of this product then provides a measure of the analyte concentration

Answer 4

electrogravimetry

Question 5

the mass of a reagent of known concentration required to react completely with the analyte provides the information needed to determine the analyte concentration

Answer 5

gravimetric titrimetry

Question 6

uses a mass spectrometer to separate the gaseous ions formed from the elements making up a sample of matter. The concentration of the resulting ions is then determined by measuring the electrical current produced when they fall on the surface of an ion detector.

Answer 6

atomic mass spectrometry

Question 7

the analyte is converted to a sparingly soluble precipitate, which is then filtered, washed free of impurities, converted to a product of known composition by suitable heat treatment, and weighed.

Answer 7

precipitation gravimetry

Question 8

is a process in which a solid is cycled through heating to high temperature, cooling, and
weighing steps until its mass becomes constant to within 0.2 to 0.3 mg.

Answer 8

drying or ignition to constant mass

Question 9

it should react specifically or at least selectively with the analyte

Answer 9

gravimetric precipitating agent

Question 10

rare reagents that react only with a single chemical species

Answer 10

specific reagents

Question 11

common reagents that react with a limited number of species

Answer 11

selective reagents

Question 12

properties of precipitates and precipitating reagents

Answer 12

1. easily filtered and washed free of contaminants
2. of sufficiently low solubility that no significant loss of the analyte occurs during filtration and washing
3. unreactive with constituents of the atmosphere
4. of known chemical composition after it is dried or, if necessary, ignited

Question 13

TRUE or FALSE
precipitates consisting of large particles are generally desirable for gravimetric work because these particles are easy to filter and wash free of impurities. In addition, precipitates of this type are usually purer than are precipitates made up of fine particles.

Answer 13

TRUE

Question 14

consists of solid particles
with diameters that are less than
10^-4 cm.

Answer 14

colloid

Question 15

in diffuse light, it may be perfectly clear and appear to contain no solid. The presence of the second phase can be detected, however, by shining a beam of flashlight into the solution

Answer 15

colloidal suspension

Question 16

TRUE or FALSE
It is very difficult to filter the particles of a colloidal suspension. To trap these particles, the pore size of the filtering medium must be so small that filtration take a very long time.

Answer 16

TRUE

Question 17

TRUE or FALSE
With suitable treatment, however, the individual colloidal particles can be made to stick together, or coagulate, to produce large particles that are easy to filter.

Answer 17

TRUE

Question 18

whose tiny particles are invisibble to the naked eye and range from 10^-7 to 10^-4 cm in diameter.

Answer 18

colloidal suspensions

Question 19

TRUE or FALSE
Colloidal particles show no tendency to settle from solution and ar difficult to filter

Answer 19

TRUE

Question 20

TRUE or FALSE
particles of colloidal dimensions scatter visible radiation, thus, the path of the beam through the solution can be seen by the eye.

Answer 20

TRUE

Question 21

the effect of colloidal particles that show no tendency to settle from solution and are difficult to filter. because particles of colloidal dimensions scatter visible radiation, the path of the beam through the solution can be seen by the eye.

Answer 21

Tyndall effect

Question 22

the temporary dispersion of such particles (with dimensions on the order of tenths of a millimeter or greater) in the liquid phase is called a

Answer 22

crystalline suspension

Question 23

TRUE or FALSE
the particle size of a precipitate is not influenced by precipitate solubility, temperature, reactant concentrations, and the rate at which reactants are mixed.

Answer 23

FALSE
the particle size of a precipitate is influenced by precipitate solubility, temperature, reactant concentrations, and the rate at which reactants are mixed.

Question 24

the net effect of the precipitate solubility, temperature, reactant concentrations, and the rate at which reactants can be accounted for, at least qualitatively, by assuming that the particle size is related to a singe property of the system called

Answer 24

relative supersaturation

Question 25

the formula of relative supersaturation

Answer 25

relative supersaturation= Q - S/ S
Q- conc. of the solute at any instant
S- equilibrium solubility

Question 26

TRUE or FALSE
It is very difficult to filter the particles of a colloidal suspension To trap these particles, the pore size of the filtering medium must be so small that filtrations take a very long time. With suitable treatment, however, the individual colloidal particles
can be made to stick together, or coagulate, to produce large particles that are easy to filter.

Answer 26

TRUE

Question 27

TRUE or FALSE
Experimental evidence indicates that the particle size of a precipitate varies inversely with the average relative supersaturation during the time when the reagent is being introduced

Answer 27

TRUE

Question 28

TRUE or FALSE
When (Q-S)/S is large, the precipitate tends to be colloidal

Answer 28

TRUE

Question 29

TRUE or FALSE
when relative supersaturation is small, a crystalline solid is more likely.

Answer 29

TRUE

Question 30

The effect of relative supersaturation on particle size can be explained if we assume
that precipitates form in two ways through

Answer 30

nucleation
particle growth

Question 31

a few ions, atoms, or molecules (perhaps as few as four or five) come together to form a stable solid

Answer 31

nucleation

Question 32

What happens when nucleation predominates

Answer 32

a precipitate containing a large number of small particles results

Question 33

what happens when particle growth predominates?

Answer 33

a smaller number of larger particles is produced.

Question 34

Often, these nuclei form on the surface of suspended solid contaminants, such as dust particles. Further precipitation then is governed by the competition between

Answer 34

additional nucleation
particle growth

Question 35

TRUE or FALSE
The rate of nucleation is believed to increase enormously with increasing relative supersaturation

Answer 35

TRUE

Question 36

TRUE or FALSE
the rate of particle growth is only moderately enhanced by high relative supersaturations

Answer 36

TRUE

Question 37

is a process in which a minimum number of atoms, ions, or molecules join together to give a stable solid

Answer 37

nucleation

Question 38

What will you do to increase the particle size of a precipitate

Answer 38

minimize the relative supersaturation during precipitate formation

Question 39

Experimental variables that minimize supersaturation and produce crystalline precipitates include

Answer 39

elevated temperature (increase solubility)
dilute solutions (minimize Q)
slow addition of the precipitating agent with good stirring (minimize Q at any given instant)

Question 40

Precipitates that have very low solubilities, such as many sulfides and hydrous oxides,
generally form as

Answer 40

colloids

Question 41

TRUE or FALSE
If the solubility of the precipitate depends on pH, larger particles can also be produced by controlling pH.

Answer 41

TRUE

Question 42

is a process in which a substance (gas, liquid, or solid) is held on the surface of a solid

Answer 42

adsorption

Question 43

retention of a substance within the pores of a solid

Answer 43

absorption

Question 44

it can be hastened by heating, by stirring, and by adding an electrolyte to the medium.

Answer 44

coagulation

Question 45

TRUE or FALSE
Colloidal suspensions are stable because all the particles of the colloid are either positively
or negatively charged and thus repel one another

Answer 45

TRUE

Question 46

Attached directly to the solid surface is what layer

(e.g. which consists mainly of adsorbed silver ions)

Answer 46

primary adsorption layer

Question 47

Surrounding the charged particle is a layer of solution, called what layer

(e.g. contains sufficient excess of negative ions, principally nitrate, to just balance the charge on the surface of the particles )

Answer 47

counter ion layer

Question 48

The primarily adsorbed silver ions and
the negative counter-ion layer constitutes an ___________ that imparts stability to the colloidal suspension.

Answer 48

electric double layer

Question 49

TRUE or FALSE
As colloidal particles approach one another,
this double layer exerts an electrostatic repulsive force that prevents particles from
colliding and adhering

Answer 49

TRUE

Question 50

TRUE or FALSE
Colloidal suspensions can often be coagulated by heating, stirring, and adding an electrolyte

Answer 50

TRUE

Question 51

TRUE or FALSE
Coagulation of a colloidal suspension can often be brought about by a short period
of heating, particularly if accompanied by stirring.

Answer 51

TRUE

Heating decreases the number of
adsorbed ions and thus the thickness, di, of the double layer. The particles may also
gain enough kinetic energy at the higher temperature to overcome the barrier to close
approach imposed by the double layer.

Question 52

TRUE or FALSE
An even more effective way to coagulate a colloid is to increase the electrolyte
concentration of the solution

Answer 52

TRUE
If we add a suitable ionic compound to a colloidal suspension, the concentration of counter-ions increases in the vicinity of each particle. As a result, the volume of solution that contains sufficient counter-ions to balance
the charge of the primary adsorption layer decreases. The net effect of adding an electrolyte is thus a shrinkage of the counter-ion layer

Question 53

is the process by which a coagulated colloid reverts to its original dispersed
state.

Answer 53

Peptization

Question 54

is an unstable solution that contains a
higher solute concentration than a saturated solution. As excess solute precipitates with time, supersaturation decreases to zero

Answer 54

supersaturated solution

Question 55

prevents the settling out of colloidal particles in solution under the influence of gravity

Answer 55

brownian motion

Question 56

TRUE or FALSE
we can coagulate, or agglomerate, the
individual particles of most colloids to give a filterable, amorphous mass that will
settle out of solution

Answer 56

TRUE

Question 57

TRUE or FALSE
as the concentration of silver nitrate is further decreased, the distance between particles becomes small enough for the forces of agglomeration to take effect and a coagulated precipitate to appear.

Answer 57

TRUE

Question 58

TRUE or FALSE
Coagulation of a colloidal suspension can often be brought about by a short period
of heating, particularly if accompanied by stirring. Heating decreases the number of
adsorbed ions and thus the thickness, di, of the double layer. The particles may also
gain enough kinetic energy at the higher temperature to overcome the barrier to close
approach imposed by the double layer.

Answer 58

TRUE

Question 59

TRUE or FALSE
increasing electrolyte concentration is an even more effective way to coagulate a colloid in a solution. Adding a suitable compound to a colloid suspension, the concentration of counter-ions increases in the vicinity of each particle, which as a result, the volume of solution that contains sufficient counter-ions to balance the charge of the primary adsorption layer decreases. Thus, the net effect of adding an electrolyte causes a shrinkage of the counter-ion layer and allow particles to approach one another more closely and agglomerate

Answer 59

TRUE

Question 60

is the process by which a coagulated colloid reverts to its original dispersed
state.

Answer 60

peptization

Question 61

TRUE or FALSE
When a coagulated colloid is washed, some of the electrolyte responsible for its coagulation is leached from the internal liquid in contact with the solid particles. Removal of this electrolyte has the effect of increasing the volume of the counter-ion layer. The repulsive forces responsible for the original colloidal state are then reestablished, and particles detach themselves from the coagulated mass. The washings become cloudy as the freshly dispersed particles pass through the filter. The problem is usually solved by washing the precipitate with a solution containing an electrolyte that volatilizes when the precipitate is dried or ignited

Answer 61

TRUE

Question 62

TRUE or FALSE
Colloids are best precipitated from hot, stirred solutions containing sufficient electrolyte
to ensure coagulation.

Answer 62

TRUE

Question 63

TRUE or FALSE
The filterability of a coagulated colloid often improves if it is allowed to stand for an hour or more in contact with the hot solution from which it was formed. During this process, which is known as digestion, weakly
bound water appears to be lost from the precipitate. The result is a denser mass that
is easier to filter

Answer 63

TRUE

Question 64

are generally more easily filtered and purified than are coagulated
colloids.

Answer 64

crystalline precipitates

Question 65

is a process in which a
precipitate is heated in the solution
from which it was formed (the
mother liquor) and allowed to stand
in contact with the solution.

Answer 65

digestion

Question 66

is the solution from which a precipitate was formed

Answer 66

mother liquor

Question 67

TRUE or FALSE
the size of individual crystalline particles, and thus their filterability, can be controlled to some extent

Answer 67

TRUE

Question 68

TRUE or FALSE
The particle size of crystalline solids can often be improved significantly by minimizing Q or maximizing S, or both

Answer 68

TRUE

Question 69

Digestion of crystalline precipitates (without stirring) for some time after formation
often yields a

Answer 69

purer, more filterable product

Question 70

is a process in which a precipitate is heated in the solution from which it was formed (the mother liquor) and allowed to stand in contact with the solution.

Answer 70

digestion

Question 71

is the solution from which a precipitate was formed.

Answer 71

mother liquor

Question 72

are generally more easily filtered and purified than are coagulated colloids.

Answer 72

crystalline precipitates

Question 73

The particle size of crystalline solids can often be improved significantly by

Answer 73

minimizing Q (concentration of solute)
maximizing S (equilibrium solubility)
or both

Question 74

Minimizing Q (conc of solute) can be done by

Answer 74

using dilute solutions
adding precipitating reagent slowly with good mixing

Question 75

Maximizing S is increased by

Answer 75

precipitating from hot solution
adjusting the pH of the precipitation medium

Question 76

TRUE or FALSE
Digestion of crystalline precipitates (without stirring) for some time after formation
often yields a purer, more filterable product

Answer 76

TRUE

Question 77

results in bridging between adjacent particles, a process that yields larger and more easily filtered crystalline aggregates

Answer 77

recrystallization

Question 78

is a process in which normally soluble compounds are carried out of solution by a precipitate.

Answer 78

coprecipitation

Question 79

TRUE or FALSE
Contamination of a precipitate by a second substance whose solubility product has been exceeded is not coprecipitation

Answer 79

TRUE

Question 80

four types of coprecipitation

Answer 80

surface adsorption
mixed-crystal formation
occlusion
mechanical entrapment

Question 81

surface adsorption and mixed crystal formation are

Answer 81

equilibrium processes

Question 82

occlusion and mechanical entrapment arise from the

Answer 82

kinetics of crystal growth

Question 83

TRUE or FALSE
Adsorption is a common source of coprecipitation and is likely to cause significant contamination of precipitates with large specific surface areas

Answer 83

TRUE

Question 84

TRUE or FALSE
Although adsorption does occur in crystalline solids, its effects on purity are usually undetectable because of the relatively small specific surface area of these solids

Answer 84

TRUE

Question 85

TRUE or FALSE
The net effect of surface adsorption is, therefore, the carrying down of an otherwise soluble compound as a surface contaminant

Answer 85

TRUE

Question 86

In minimizing adsorbed impurities on colloids, the purity of many coagulated colloids is improved by

Answer 86

digestion

Question 87

is defined as the surface area per unit mass of solid and usually has the units of square centimeters per gram

Answer 87

specific surface area

Question 88

A drastic but effective way to minimize the effects of adsorption, which the first precipitate usually carries down only a fraction of the contaminant present in the original solvent. Thus, the solution containing the redissolved precipitate has a significantly lower contaminant concentration than the original, and even less adsorption occurs during the second precipitation.

Answer 88

reprecipitation

Question 89

one of the ions in the crystal lattice of a solid is replaced by an ion of another element

Answer 89

mixed-crystal formation

Question 90

types of coprecipitation

Answer 90

reprecipitation
mixed-crystal precipitation
occlusion and mechanical entrapment

Question 91

is a type of coprecipitation in which a compound is trapped within a pocket formed during rapid crystal growth.

Answer 91

occlusion

Question 92

occurs when crystals lie close together during growth

Answer 92

mechanical entrapment

Question 93

TRUE or FALSE
Both occlusion and mechanical entrapment are at a minimum when the rate of precipitate formation is low, that is, under conditions of low supersaturation.

Answer 93

TRUE

Question 94

TRUE or FALSE
Mixed-crystal formation may
occur in both colloidal and
crystalline precipitates, but
occlusion and mechanical
entrapment are confined to
crystalline precipitates.

Answer 94

TRUE

Question 95

2 types of coprecipitated errors

Answer 95

positive errors
negative errors

Question 96

If the contaminant is not a compound of the ion being determined, _______ always results

Answer 96

positive errors

Question 97

when the contaminant does contain the ion being determined, either _______________ may occur

Answer 97

positive or negative errors

Question 98

is a process in which a precipitate is formed by slow generation of a precipitating reagent homogeneously throughout a solution. of crystalline precipitates also results in marked increases in crystal size as well as improvements in purity

Answer 98

homogeneous precipitation

Question 99

Some precipitates are also ignited to decompose the solid and form a compound of known composition, which is often called

Answer 99

weighing form

Question 100

Recording thermal decomposition
curves are called

Answer 100

thermogravimetric analysis

Question 101

the mass versus temperature curves are termed

Answer 101

thermograms

Question 102

Organic reagents that yield sparingly soluble coordination compounds typicallycontain at least two functional groups. Each of these groups is capable of bonding with a cation by donating a pair of electrons, which reagents that form compounds of this type are called ______ and products are called ________

Answer 102

chelating agents
chelates

Question 103

are relatively nonpolar and, as a consequence, have solubilities that are low in water but high in organic liquids. Usually, these compounds possess low densities and are often intensely colored

Answer 103

metal chelates

Question 104

Approximately two dozen cations form sparingly soluble chelates with ___________. solubility vary widely from cation to cation and are pH dependent because of instant deprotonation during chelation reaction

Answer 104

8-hydroxyquinoline (oxine)

Question 105

is an organic precipitating agent of unparalleled specificity with nickel

Answer 105

Dimethylglyoxime

Question 106

is an important example of an organic precipitating reagent that forms salt-like precipitates. near specific precipitating agent for potassium and ammonium ions . however, Hg, Rb, Cs must be removed by prior treatment

Answer 106

Sodium Tetraphenylborate

Question 107

water vapor is collected on any of several solid desiccants, and its mass is determined from the mass gain of the desiccant

Answer 107

direct determination

Question 108

the amount of water is determined by the loss of mass of the sample during heating is less satisfactory because it must be assumed that water is the only component that is volatilized

Answer 108

indirect determination