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Transcript of gravimetri 2014
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gravi – metric (weighing - measure)
Gravimetric Analysis
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Gravimetric Analysis Introduction
1.) Gravimetric Analysis:(i) A technique in which the amount of an analyte in a sample is
determined by converting the analyte to some product Mass of product can be easily measured
(ii) Analyte: the compound or species to be analyzed in a sample
(iii) Overall, gravimetry sounds simple. Advantages - when done correctly is highly accurate (most
accurate of all time); requires minimal equipment
Disadvantage - requires skilled operator, slow.
Convert analyte into a solid, filter, weigh, calculate via a mole map
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Gravimetric Analysis- What is It?
Reaction:aA + rR -----> AaRr ppt
where:a molekul analit A bereaksi dengan r molekul R
AaRr is a pure, insoluble precipitatewhich we can dry and weigh or ignite to convert to something we can weigh
ppt=precipitate
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Persyaratan yang harus dipenuhi agar metode gravimetri berhasil
Proses pemisahan hendaknya cukup sempurna sehingga kuantitas analit yang tak terendapkan secara analitis tak dapat terdeteksi.
Zat yang ditimbang hendaknya mempunyai susunan yang pasti dan hendaknya murni atau sangat hampir murni. Bila tidak akan di peroleh hasil yang galat.
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Introduction
1.) Gravimetric Analysis:(iii) Example:
Determination of lead (Pb+2) in water
Pb+2 + 2Cl- PbCl2(s)
By adding excess Cl- to the sample, essentially all of the Pb+2 will precipitate as PbCl2.
Mass of PbCl2 is then determined.- used to calculate the amount of Pb+2 in original solution
ReagentAnalyte Solid Product
Gravimetric Analysis
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What Do We Get Out of Gravimetry?
% of analyte, % A
%A = weight of analyte x 100 weight of sample
weight of ppt directly obtained ->? A
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How Do We Get %A?
% A = weight of ppt x gravimetric factor (G.F.) x 100 weight of sample
G.F. = a FW[analyte] b FW[precipitate]
G.F. = berapa gram analit dalam 1 gram (ekivalennya dalam 1 g) endapan
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Gravimetric FactorX apples + Y sugar = Z apple pies
What is this relationship in chemistry?
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The Gravimetric FactorG.F. = a FW[analyte]
b FW[precipitate]
Analyte ppt G.F.CaO CaCO3
FeS BaSO4
UO2(NO3)2.6H2O U3O8
Cr2O3 Ag2CrO4
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Gravimetric Factor
Analyte ppt G.F.CaO CaCO3 CaO/CaCO3
FeS BaSO4 FeS/BaSO4
UO2(NO3)2 U3O8 3UO2(NO3)2/U3O8
Cr2O3 Ag2CrO4 Cr2O3/2Ag2CrO4
Naming is critically important (next class)
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Why AgCl?
Reaction is highly selective - no interferents 2AgCl ----> 2Ag + Cl2(g)
AgCl is insoluble in water, i.e., only slightly soluble in water-losses negligible 1.4 mg/L at 200C 22 mg/L at 1000C
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Why AgCl is a Good Precipitate?
Small mass of analyte yields large mass of precipitate-sensitive technique
AgCl precipitates in curds/lumps that can be easily collected, dried, and weighed
Precipitate (ppt) is not hygroscopic
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Suatu sampel seberat 0,6025 g dari suatu garam klorida dilarutkan dalam air dan kloridanya diendapkan dengan menambahkan perak nitrat berlebih. Endapan perak klorida disaring, dicuci menghasilkan 0,7134 g. Hitung persentase klorida (Cl) dalam sampel itu!
Suatu sampel bijih besi seberat 0,4852 g, dilarutkan dalam asam, besinya dioksidasi ke keadaan oksidasi +3 dan kemudian diendapkan sebagai oksida berair Fe2O3.xH2O. Endapan disaring, dicucui dan dipanggang menjadi Fe2O3
yang ternyata beratnya 0,2481 g. Hitunglah persentase besi dalam sampel itu?
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ProblemConsider a 1.0000 g sample containing
75% potassium sulfate (FW 174.25) and 25% MSO4. The sample is dissolved and the sulfate is precipated as BaSO4 (FW 233.39). If the BaSO4 ppt weighs 1.4900, what is the atomic weight of M2+ in MSO4?
ANS: Mg2+
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AnswerThe hard part is setting up the correct
equation (good stoichiometry skills are essential here!):
Rearranging and solving:
06.96
39.233*25.0
25.174
39.233*75.04900.1
x
)(12.24;06.96
3475.584855.0
2
Mgxx
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ProblemA mixture of mercurous chloride (FW
472.09) and mercurous bromide (FW 560.99) weighs 2.00 g. The mixture is quantitatively reduced to mercury metal (At wt 200.59) which weighs 1.50 g. Calculate the % mercurous chloride and mercurous bromide in the original mixture.
ANS: 0.5182 g
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AnswerAgain, important to set up correct equation:
Rearranging and solving:
99.560
259.200*2
09.472
*59.200*250.1
xx
gx
x
5182.0
50.127151.08498.0
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Gravimetric Analysis Types of Gravimetric Analysis
1.) Combustion Analysis2.) Precipitation
Combustion Analysis
• Common method used to determine the amount of carbon and hydrogen
• One modified method (Dumas Method) can also determine the amount of nitrogen in a sample
• Technique is accurate and usable with a wide range of compounds. Often one of the first methods used to characterize a new compound
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Combustion Analysis
1.) Principals:(i) Sample is heated in presence of Oxygen (O2)
Converts carbon in sample to CO2
Converts hydrogen in sample to H2O
C(sample) + O2 CO2
2H(sample) + ½O2 H2O
Pt, CuO, PbO2, or MnO2 is used as a catalyst in this process
(ii) As CO2 and H2O form, leave the sample and flow through a series of chambers
Chambers contain chemicals that bind one or both of these products Example:
- P4O10 can be used to absorb H2O- Ascarite can be used to absorb CO2
- Ascarite - Sodium Hydroxide Coated Non-Fibrous Silicate
Gravimetric Analysis
Pt
Pt
Ascarite
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Gravimetric Analysis Combustion Analysis
2.) Apparatus:
(i) After the sample is completely burned: Remove P4O10 and Ascarite cartridges and weigh If C and H are present in sample, both cartridges will increase in mass
(ii) Amount of C and H in the original sample is determined from: Knowing the amount of sample burned Change in weight in each cartridge
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Combustion Analysis
3.) Example Calculation:
A mixture weighing 7.290 mg contained only cyclohexane, C6H12 (FM 84.159),and oxirane, C2H4O (FM 44.053). When the mixture was analyzed by combustion analysis, 21.999 mg of CO2 (FM 44.010) was produced.
Find the weight percent of oxirane in the mixture.
Gravimetric Analysis
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Precipitation Analysis
1.) Principals:(i) Reagent + Analyte Solid Product (collect and measure
mass)
(ii) Desired Properties of Solid Product Should be very insoluble Easily filterable (i.e., large crystals) Very Pure Known and constant composition
Gravimetric Analysis
Hanya sedikit endapan memiliki semua sifat ini, tetapi dalam banyak kasus teknik yang tepat dapat membantu mengoptimalkan kualitas ini
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Gravimetric Analysis Precipitation Analysis
2.) Solubility:(i) The solubility of a precipitate can be decreased by:
Decreasing temperature of solution Using a different solvent
- usually a less polar or organic solvent (like dissolves like)
Solubility vs. pH Solubility vs. TemperatureSolubility vs. Common Ion Effect
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Gravimetric Analysis Precipitation Analysis
3.) Gravimetric Analysis:(i) Governed by equilibrium: AgCl Ksp = 1.8 x 10-10
Solubility of AgCl = [Ag+] + [AgCl] + [AgCl2-]
Cl- + Ag+ AgCl(ag) ion pair formation
AgCl(aq) AgCl(s) intrinsic solubility
AgCl +Cl- AgCl2- complex ion formation
ClAg
AgClKo
AgClK i
ClAgCl
AgClK
2
f
ClKKKKCl
KK
Cl
AgClKK
Cl
AgClS ofi
o
ofio ][][][
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Gravimetric Analysis Precipitation Analysis
4.) Filterability:(i) Want product to be large enough to collect on filter:
Doesn’t clog filter Doesn’t pass through filter
(ii) Best Case: Pure Crystals
(iii) Worst Case: Colloidal suspension Difficult to filter due to small size Tend to stay in solution indefinitely suspended by Brownian motion
- usually 1-100 nm in size
Apakah kristal atau koloid diperoleh tergantung pada kondisi yang digunakan dalam presipitasi
Brownian Motion
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Gravimetric Analysis Precipitation Analysis
5.) Process of Crystal Growth:(i) Two Phases in Crystal Growth
Nucleation – molekul dalam larutan muncul bersama-sama secara acak dan membentuk agregat (kerikil) kecil
Particle growth – addition of molecules to a nucleus to form a crystal
Crystal Growth
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Gravimetric Analysis Precipitation Analysis
5.) Process of Crystal Growth:(ii) Nucleation and Particle growth always compete for molecules/ions being precipitated.
If nucleation is faster than particle growth:- a large number of small aggregates occur giving colloidal suspensions
If particle growth is faster than nucleation: - only a few, large particles form giving pure crystals
Colloidal suspension Crystal formation
Want to Convert to
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Gravimetric Analysis Precipitation Analysis
5.) Process of Crystal Growth:(iii) Methods for Maximizing Crystal Growth (avoid colloids)
Increase temperature of solution- increase amount of solute that can be
in solution at equilibriumAdd precipitating reagent slowly while vigorously mixing solution
- avoids local high concentrations of solutionKeep volume of solution large
- keep concentration of analyte and precipitating reagent lowPrecipitate Ionic compounds in presence of electrolyte (0.1 M HNO3)
- overcome charge repulsion and promotes particle growthControl solubility of solute through chemical means
- by adjusting pH- adding complexing agents
- example: precipitation of Ca2+ with C2O42-
C2O42- + H+ HC2O4
-
Ca2+ + C2O42-
CaC2O4(s)
Ksp
Note: As pH ([H+]) changes, the solubility of CaC2O4 changes
Avoid Colloidal Particle
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Gravimetric Analysis Precipitation Analysis
6.) Crystal Impurities:(i) Impurities are undesirable (known as co-precipitation)
Change the chemical composition of the precipitate Creates errors in gravimetric analysis
(iii) Types of Impurities Adsorption, Occlusion, Inclusion
Adsorbed to crystal surface
Absorbed or trapped within crystal pockets
Impurity placed in crystal instead of analyte
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Gravimetric Analysis Precipitation Analysis
6.) Crystal Impurities:(iii) Ways to Minimize Impurities
Maximize crystal growth- large pure crystals decrease
occlusions and adsorbed impurities
Digestion: allowing precipitate to stand in mother liquor (precipitating solution), usually while being heated
- promotes removal of impurities from crystal
- increases size of crystals
Wash precipitate, redissolve in fresh solvent and reprecipitate- helps decrease all types of impurities
Add a masking agent to solution- keeps impurities from precipitating,
but not analyteMg2+ + CPCH Solid product
Mn2+ + 6CN- Mn(CN)64-
Masking agent
precipitant
Color Impurity
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Gravimetric Analysis Precipitation Analysis
7.) Final Preparation of Precipitates:(vi) Washing Precipitates
Precipitates from ionic compounds- need electrolyte in wash solution- keep precipitate from breaking up and redissolving (peptization)
Electrolyte should be volatile- removed by drying- HNO3, HCl, NH4, NO3, etc.
Illustration:- AgCl(s) should not be washed with H2O, instead wash with dilute HNO3
(vii) Drying/Igniting PrecipitatesMany precipitates contain varying amounts of H2O
- adsorbed from the air (i.e. hygroscopic)Precipitates are dried for accurate, stable mass measurementsPrecipitates are also ignited to convert to a given chemical form
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Gravimetric Analysis Calculations in Gravimetric Analysis
8.) Example Calculation
A mixture containing only Al2O3 (FM 101.96) and Fe2O3 (FM 159.69) weighs 2.019 g. When heated under a stream of H2, Al2O3 is unchanged, but Fe2O3 is converted into metallic Fe plus H2O (g).
If the residue weighs 1.774 g, what is the weight percent of Fe2O3 in the original mixture?
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