kb of c2h3o2

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Ka for HC2H3O2: 1.8*10^-5 Ka for HCO3-: 4.3*10^-7 Using the Ka's for HC2H3O2 and HCO3, calculate the Kb's for the C2H3O2^- and CO3^2- ions. Compare this value with that calculated from your measured pH's. Report 3 significant figures, e.g. You can ask a new question or browse more Chemistry 2B - UC Davis questions. endobj /F3 14 0 R Question 21 (4 points) EC-x.xx What is the conjugate base of Express your answer using two significant figures. National Library of Medicine. 5.6 x. /Encoding /WinAnsiEncoding (Kb > 1, pKb < 1). Acid with values less than one are considered weak. Copyright 2018 RJFP. 3. >> Calculate the value of Kb for this salt from tabulated values of equilibrium constants. Expert Answer . What is [Pb2+] at the point at which the second anion begins to precipitate (in M)? What is the value of Kb for C2H3O2-? /Descent -198 To solve for x, we use the quadratic formula. K a is the equilibrium constant for the dissociation reaction of a weak acid.A weak acid is one that only partially dissociates in water or an aqueous solution. NH4Cl knowing that the pH value is 4.5 | determine which direction-forward or reverse-is favored in the reaction, compare strengths of both acids then both bases. consent of Rice University. Ask a Similar Question. 3. Write the Kb expression for the hydrolysis reaction. What is the Ka of pure water? Solving for the Kb value is the same as the Ka value. 1.7 x 10-5 C-x.xx (Hide this section if you want to rate later). #therefore pH approx 8.89#, 12364 views stream The Ksp value for magnesium arsenate [Mg3(AsO4)2] is 2.00 X 10-20. Using the Ka's for HC2H3O2 and HCO3- calculate the Kb's for the C2H3O2- and CO3-2 ions. .01 mol B. Question: 0.1 M NaC2H3O2 solution,pH of 9.1, calculate: Value of Kb. In this video we determine the type of chemical reaction for the equation HC2H3O2 + HCl = NaCl + H2O + CO2 (Acetic acid + Sodium bicarbonate). endobj Complete the following sentence. (8) 2 10 9 = ( x) ( x) ( 0.2 x) Step 5: Solve for x. Table of Acids with Ka and pKa Values* CLAS * Compiled . << 555 555 555 555 555 555 555 555 555 555 260 260 596 596 596 445 b. If you are redistributing all or part of this book in a print format, << /Resources << HC2H3O2 (aq)+ H2O (l) C2H3O2 (aq)+H3O+ (aq) how to solve for pH when given the concentrations of a solution for the ionization of a weak acid - differentiate which is acid and which is base (if there is a strong acid present, it will completely ionize and the [H3O+]= [strong acid]) I don't have access to your data but I expect you need to utilize the OH^-/HAc values you found. /FontName /FJCPPC+Myriad-Bold OpenStax is part of Rice University, which is a 501(c)(3) nonprofit. We then replace the term on the right side of this equation with a constant known as the water dissociation equilibrium constant, Kw. Choosing an acid or base where pK a is close to the pH needed gives the best results. Table of Acids with Ka and pKa Values* CLAS Acid HA A-Ka pKa Acid Strength Conjugate Base Strength Hydroiodic HI I-Hydrobromic HBr Br-Perchloric HClO4 ClO4-Hydrochloric HCl Cl-Chloric HClO3 ClO3-Sulfuric (1) H2SO4 HSO4-Nitric HNO3 NO3-Strong acids completely dissociate in aq solution (Ka > 1, pKa < 1). Creative Commons Attribution License Which way will the equilibrium shift? Start studying CHM Ch.11. it can be very concentrated. << The KB value is listed below: pKa + pKb - 14 pKa = -log10 (Ka), Ka of acetic acid = 1.8*10^-5 pKa = 4.74, pkb = 9.255 9.255 = -log10(Kb), Kb = 5.56*10^-10 C under acetate is concn of the salt. CO32- ions. 1)Paul added some pure potassium nitrate crystals to a cold water in a beaker and stirred the mixture. Consider the generic acid HA which has the reaction and equilibrium constant of. Ka for HC2H3O2: 1.8*10^-5 Ka for HCO3-: 4.3*10^-7 Using the Ka's for HC2H3O2 and HCO3, calculate the Kb's for the C2H3O2^- and CO3^2- ions. Ka for HC2H3O2: 1.8 x 10 -5Ka for HCO3-: 4.3 x 10 -7Using the Ka's for HC2H3O2 and HCO3, calculate the Kb's for the C2H3O2- and CO32- ions. Show work. National Institutes of Health. Experts are tested by Chegg as specialists in their subject area. 10-14 Calculating the acid dissociation constant, Ka, using an ICE Table Ka for HC2H3O2: 1.8*10^-5 Ka for HCO3-: 4.3*10^-7 Using the Ka's for HC2H3O2 and HCO3, calculate the Kb's for the C2H3O2^- and CO3^2- ions. What are the units used for the ideal gas law? Step 3: Plug in the information we found in the ICE table. Whereas, pH = pKa +log([base] [acid]) In this case, Ka = 1014 1.8 105 5.6 1010 Thus, pH = 9.26 +log( 0.15 0.35) pH 8.89 Answer link For HC2H3O2, the formula for Ka is Ka = [H3O+] [C2H3O2]/ [HC2H3O2]. /Font << ] >> It is used in making white lead in medicines and as a mordant in dyeing. What is the conjugate acid of base HCO3- ? H|TiTWjPE!viU+nDlQ]Q#fM\hA!h3QQ$'Z9u{K&IlPDsh65>q&=$YOJSMi24>xFM#V`6_%d$y_R6g+?V_8z*}5 I,j6SNJtU*}^YIYI\!ej2^OLnQjIgT|;[$mvSY0%9I0=A 'Gn&G&DADDA8tJ"3,12bR%Kd=fmj;uIVTqs AD/92z#Zg!t/q0 g>04s 338 260 260 454 454 338 500 1000 300 867 434 270 868 338 338 603 2007-2021 Transweb Global Inc. All rights reserved. also know as Vinegar. Xka0wFSP!>;d#a 5r You'll get a detailed solution from a subject matter expert that helps you learn core concepts. Acetic acid is a weak acid, but Punnett Square Worksheet With Answers Pdf, Fahrenheit 451 Recognizing Irony Worksheet Answers, Creative Commons Attribution-NonCommercial 3.0 Unported License. kb, for the acetate ion C2H3O2-I have acetic acid +h20 <-->H30 + acetate ka=1.8x10-5 acetate + h20 <--> Acetic acid and OH- (Ka)*(Kb)=Kw . Is Brooke shields related to willow shields? /FontFile3 16 0 R It's silly to not give you the K_b value for ammonia. Textbook content produced by OpenStax is licensed under a Creative Commons Attribution License . The initial concentration of H2CO3 is .01. .05 mol C. .10 mol D. .15 mol E. .20. HC2H3O2 is the chemical formula for the organic compound acetic acid. /Subtype /Type1 Does the question reference wrong data/report 2003-2021 Chegg Inc. All rights reserved. Moreover, Henderson-Hasselbach will make this a breeze (not a person, but an equation). 13 0 obj (C2H3O2-)? citation tool such as, Authors: Paul Flowers, Klaus Theopold, Richard Langley, William R. Robinson, PhD. Strong acids are listed at the top left hand corner of the table and have Ka values >1 2. That gives you an experimental value for Kb. What is wrong with reporter Susan Raff's arm on WFSB news? It will dissociate to NH4+ and C2H3O2- 528 528 528 528 528 528 803 451 528 528 528 528 274 274 274 274 Experts are tested by Chegg as specialists in their subject area. Russ Clean Songs, /Leading 101 HC2H3O2 + NaCl --> Na+ + C2H3O2-). Suppose a chemist mixed 33.23 mg of Mg2+(aq) with 44.56 mg of AsO43-(aq) in 21.47 Liter of water. /Widths [ 202 268 397 550 555 880 678 205 314 314 454 596 260 322 260 331 C2H3O2 (more commonly written CH3COO-) is the anion Acetate. This book uses the 1999-2023, Rice University. To find the Ka, solve for x by measuring out the equilibrium concentration of one of the products or reactants through laboratory techniques. acid and the Acetate Ion is its conjugate base. endobj Question 21 (4 points) Solution : Ka*Kb = Kw Kb = Kw/Ka Ka of HC2H3O2 is 1.8*10^-5 So Kb = 1.0*10^-14 / 1.8*10^-5 Kb = 5.56*10^-10 So Kb value of HCO3- is 5.56*10^-10 Ka value. f HCO3- is 5.6*10^-11 Kb = 1.0*10^-14 / 5.6*10^-11 Kb = 1.79*10^-4 So Kb value of CO3^2- is 1.79*10^-4, Posted Log in or register to post comments; Similar Questions. It has a role as a human metabolite, a Saccharomyces cerevisiae metabolite, an Escherichia coli metabolite, a mouse metabolite and a cofactor. Was the final answer of the question wrong? /AvgWidth 519 770 656 604 595 696 534 527 682 689 285 411 614 511 846 690 717 NaHCO3 (s) + HC2H3O2 (aq) = NaC2H3O2 (aq) + H2O (I) + CO2 (g) Using the above formula, if I used 0.100L of 0.83 M HC2H3O2 (aq) (0.83 mol per 1 L of solution), how much carbon dioxide would be produced? /Type /Font To do that you use. Expert Solution. a = 1. b = 2 10 9. endobj 5.97E-10. You can compare that with the actual value by Kb = (Kw/Ka) = (1E-14/Ka for acetic acid) = 5.56E-10. both are a weak acid(NH4) and weak base(C2H3O2) The OpenStax name, OpenStax logo, OpenStax book covers, OpenStax CNX name, and OpenStax CNX logo When joined with a Hydrogen to form CH3COOH, it is Acetic Acid, Choose 1. You'll get a detailed solution from a subject matter expert that helps you learn core concepts. and you must attribute OpenStax. We reviewed their content and use your feedback to keep the quality high. The Ka for HC2H3O2 is 1.8 x 10-5. ASAP. % I suspect you measured the pH of the solution, converted that to OH^- and plugged into Kb = (x)^2/C-x. Glacial acetic acid is a acetic acid >> How would you find a Ka or kb value for ( the initial concentrations of both is .1M ) 1. 581 717 593 540 548 682 636 888 613 603 577 314 342 314 596 500 NCI Thesaurus (NCIt) Hydrogencarbonate is the carbon oxoanion resulting from the removal of a proton from carbonic acid. You use the formula. Calculate the Kb values for the CO32- and C2H3O2- ions using the Ka values for HCO3- (4.7 x 10-11) and HC2H3O2 (1.8 x 10-5), respectively. The value of K a is used to calculate the pH of weak acids.The pK a value is used to choose a buffer when needed. Lead Acetate is also known as lead (II) acetate, is a white crystalline chemical compound with the formula Pb (C 2 H 3 O 2) 2. then you must include on every physical page the following attribution: If you are redistributing all or part of this book in a digital format, * Compiled from Appendix 5 Chem 1A, B, C Lab Manual and Zumdahl 6th Ed. It's silly to not give you the K_b value for ammonia. A. True or false. /F2 10 0 R The bubbles you see when you mix using Kb, for NH3 (from Appendix E), calculate Ka for the NH4+ ion. The higher the Kb, the the stronger the base. << The HCO3- is an acid since it has the proton H + that it can donate, when it donates its H + ion it will form CO3^2- .CO3 2-is a base since it can now accept a proton but it is a conjugate base to HCO 3-since it is formed from HCO 3-by donating a proton.. To find the Kb of CO3 2-:-. Correct answer is - 5.610-10. Taurus Judge Concealed Carry Holster, I suspect you measured the pH of the solution, converted that to OH^- and plugged into Kb = (x)^2/C-x. It is no acid at all! The general equation of a weak base is. I looked this up in an acid equilibria table: #K_b = 1.8*10^-5#. calculated from your measured pH's. Lead acetate was first produced in the United States in 1944. /FontDescriptor 7 0 R In this question we're worried about ammonia and the ammonium ion of methylamide. Calculate the Kb value for C2H3O2-. Logged opti384. Our videos prepare you to succeed in your college classes. Acetic Acid is the weak A buffer is an acid/base and its conjugate acid/base. The pKa of an acid is exactly the same as the pH HALFWAY to the equivalence point!Then, Ka = 10^-pKa and you're done. endobj /Filter /FlateDecode one month ago, Posted Our videos will help you understand concepts, solve your homework, and do great on your exams. Trending now. What is the value of Kb for the acetate ion KC2H3O2 is potassium acetate, of which the acetate anion C2H3O2- is a weak base, pKb = 9.22 and potassium ions are neutral, hence of no effect on pH. >> Ba(OH)2? How do I determine the molecular shape of a molecule? /F0 6 0 R 1.5 10-9 M 1.0 10-7 M 9.1 10-6 M 1.1 10-5 M 1.2 10-3 For a detailed explanation of this, check out ICE tables: 1 See answer luckylulu03 is waiting Compare these values with those calculated from your measured pH's. C2H3O2- and View desktop site. Table of Solubility Product Constants (K sp at 25 o C). Get it solved from our top experts within 48hrs! Therefore we can just dilute it with water. /Parent 5 0 R You can assume the volume of the solution doesn't change when the zinc acetate is, I started by making an ICE Chart. Question: Using The Ka's For HC2H3O2 And HCO3-, Calculate The Kb's For The C2H3O2- And CO32- Ions. Favorite Answer. /MissingWidth 338 Given HC2H3O2 is acetic acid,CH3COOH, and the dissociation of acetic acid is shown below CH3COOHCH3COO. Glacial acetic acid refers to Concentrated Acetic acid. I am supposed to write a net ionic equation. 12 0 obj Electrical Hazards Pdf, 6 0 obj the term Acetic acid can refer to any concentrations. Using Kb, for NH_3 (from Appendix E), calculate Ka for the NH_4^+ ion. Do you have pictures of Gracie Thompson from the movie Gracie's choice. 16 0 obj Your email address will not be published. Who are the experts? TABLE OF CONJUGATE ACID-BASE PAIRS Acid Base K a (25 oC) HClO 4 ClO 4 - H 2 SO 4 HSO 4 - HCl Cl- HNO 3 NO 3 - H 3 O + H 2 O H 2 CrO 4 HCrO 4 - 1.8 x 10-1 H 2 C 2 O 4 (oxalic acid) HC 2 O 4 - 5.90 x 10-2 [H 2 SO 3] = SO 2 (aq) + H2 O HSO /FirstChar 32 Required fields are marked *, This journal is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported License. %PDF-1.2 /BaseFont /FJCPPC+Myriad-Bold BOH B + + OH . Units: molar mass - g/mol, weight - g. Please tell about this free chemistry software to your friends! We are not permitting internet traffic to Byjus website from countries within European Union at this time. Get it Now, By creating an account, you agree to our terms & conditions, We don't post anything without your permission, Looking for Something Else? 1) C2H3O2- + H2O <-----> C2H3O2H + OH-Kb = [HC2H3O2] [OH-] / [C2H3O2-] 2)Carbonate ion is derived from carbonic acid, the acid obtained when carbon dioxide gas is dissolved in water. Answer Save. You can compare that with the actual value by Kb = (Kw/Ka) = (1E-14/Ka for acetic acid) = 5.56E-10. Requested URL: byjus.com/chemistry/lead-acetate/, User-Agent: Mozilla/5.0 (iPhone; CPU iPhone OS 15_4_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/15.4 Mobile/15E148 Safari/604.1. (9) x 2 + ( 2 10 9) x ( 4 10 10) = 0. 0.1 M NaC2H3O2 solution,pH of 9.1, calculate: Value of Kb. Learn vocabulary, terms, and more with flashcards, games, and other study tools. Type Formula K sp; Bromides : PbBr 2: 6.3 x 10-6: AgBr: 3.3 x 10-13: Carbonates : BaCO 3: 8.1 x 10-9: CaCO 3: 3.8 x 10-9: CoCO 3: 8.0 x 10-13: CuCO 3: 2.5 x 10-10: FeCO 3: 3.5 x 10-11: PbCO 3: 1.5 x 10-13: MgCO 3: 4.0 x 10-5: MnCO 3: 1.8 x 10-11: NiCO 3: 6.6 x 10-9: Ag 2 CO 3: 8.1 x 10-12: ZnCO 3: 1.5 x 10-11: Chlorides 39820 Compare these with those Q. Ka for HC2H3O2: 1.8 x 10 -5Ka for HCO3-: 4.3 x 10 -7Using the Ka's for HC2H3O2 and HCO3, calculate the Kb's for the C2H3O2- and CO32- ions. Get the detailed answer: Using the Ka's for HC2H3O2 and HCO3- calculate the Kb's for the C2H3O2- and CO3-2 ions. The Ka formula and the Kb formula are very similar. Doesn't need to be balanced. Using the Ka's for Relevance. The site owner may have set restrictions that prevent you from accessing the site. then you must include on every digital page view the following attribution: Use the information below to generate a citation. Rank these acids according to their expected p Ka values. 1. 4 0 obj Posted 2 years ago A hydrolytic enzyme consumes 1.8 10-7 moles of hydrogen ions per minute in 2.50 L of a buffer that contained 0.15 M HC2H3O2 and 0.25 M C2H3O2 -. We recommend using a 338 338 260 555 459 1000 524 524 300 1285 540 270 936 338 338 338 Thus the reaction will not proceed forward, but rather produce more HCO3-. stream Write the net ionic equation for the hydrolysis of Na 2CO 3. C2H4O2+H2O - H3O+C2H3O2 is hydronium the H donor and is C2H3O2 the base? Question: Question 21 (4 points) What is the value of Kb for the acetate ion (C2H3O2-)? How does Charle's law relate to breathing? If you are having trouble with Chemistry, Organic, Physics, Calculus, or Statistics, we got your back! Bicarbonate Ion is a polyatomic ion whose formula is HCO3-. What is the [OH-] in a .0052 M solution of (Rate this solution on a scale of 1-5 below), Log into your existing Transtutors account. so Ka of NH4 is ~ to the Kb of acetate(C2H3O2) anion 21. The pKa values for organic acids can be found in Appendix II of Bruice 5th Ed. 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Aphids On Tulsi, around the world. Type of Chemical Reaction: For this reaction we have a chemical reaction. Learn vocabulary, terms, and more with flashcards, games, and other study tools. Compare These With Those Calculated From Your Measured PH's. Conjugate acids (cations) of strong bases are ineffective bases. Balancing Strategies: In this reaction we have NaHCO3 (baking soda) reacting with an aqueous solution of HC2H3O2 (vinegar) to form NaC2H3O2 + CO2 + H2O. BT 0.971 0 0 0.971 210 709.92 Tm 0 0 0 rg /F0 11 Tf 0.0046 Tc -0.0022 Tw (TABLE OF CONJUGATE ACID-BASE PAIRS) Tj -142.123 -23.234 TD -0.0297 Tc 0 Tw (Acid) Tj 185.3778 0 TD 0.0193 Tc (Base) Tj 185.3778 0 TD /F1 11 Tf 0.0602 Tc (K) Tj ET BT 1.0602 0 0 1.0602 438.36 685.08 Tm /F1 6 Tf -0.0406 Tc (a) Tj ET BT 0.971 0 0 0.971 441.84 687.36 Tm /F0 11 Tf -0.0306 Tc 0.0341 Tw ( $25) Tj ET BT 1.0602 0 0 1.0602 459.12 691.68 Tm /F0 6 Tf 0.0478 Tc -0.0117 Tw ( o) Tj ET BT 0.971 0 0 0.971 464.16 687.36 Tm /F0 11 Tf 0.0059 Tc 0 Tw (C$) Tj -403.8764 -23.234 TD /F2 11 Tf 0.006 Tc (HClO) Tj ET BT 1.0602 0 0 1.0602 95.04 662.52 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 252 664.8 Tm /F2 11 Tf 0.0093 Tc (ClO) Tj ET BT 1.0602 0 0 1.0602 268.08 662.52 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 72 653.52 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 651.24 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 653.52 Tm /F2 11 Tf -0.0126 Tc (SO) Tj ET BT 1.0602 0 0 1.0602 94.8 651.24 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 252 653.52 Tm /F2 11 Tf -0.0096 Tc (HSO) Tj ET BT 1.0602 0 0 1.0602 271.56 651.24 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 72 642.24 Tm /F2 11 Tf 0.0214 Tc (HCl) Tj 185.3778 0 TD 0.034 Tc (Cl) Tj ET BT 1.0602 0 0 1.0602 260.76 646.56 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 72 630.96 Tm /F2 11 Tf 0.0033 Tc (HNO) Tj ET BT 1.0602 0 0 1.0602 93.36 628.68 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 252 630.96 Tm /F2 11 Tf 0.0069 Tc (NO) Tj ET BT 1.0602 0 0 1.0602 266.4 628.68 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 72 619.68 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 617.4 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 82.2 619.68 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 89.52 624 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 252 619.68 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 258.96 617.4 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 262.2 619.68 Tm /F2 11 Tf -0.0401 Tc (O) Tj -195.8826 -11.617 TD -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 606.12 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 608.4 Tm /F2 11 Tf -0.0021 Tc (CrO) Tj ET BT 1.0602 0 0 1.0602 99.24 606.12 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 252 608.4 Tm /F2 11 Tf -0.0025 Tc (HCrO) Tj ET BT 1.0602 0 0 1.0602 276 606.12 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 608.4 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.8 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 612.72 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2261) Tj ET BT 0.971 0 0 0.971 72 597.12 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 594.84 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 597.12 Tm /F2 11 Tf 0.0466 Tc (C) Tj ET BT 1.0602 0 0 1.0602 88.44 594.84 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 91.68 597.12 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 99 594.84 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 102.24 597.12 Tm /F2 11 Tf 0.0015 Tc 0.0147 Tw ( $oxalic acid$) Tj 154.2343 0 TD 0.0214 Tc 0 Tw (HC) Tj ET BT 1.0602 0 0 1.0602 265.2 594.84 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 268.44 597.12 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 275.76 594.84 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 597.12 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (5.90 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 601.44 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2262) Tj ET BT 0.971 0 0 0.971 72 585.84 Tm /F2 11 Tf -0.019 Tc ([H) Tj ET BT 1.0602 0 0 1.0602 81.96 583.56 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 85.2 585.84 Tm /F2 11 Tf -0.0126 Tc (SO) Tj ET BT 1.0602 0 0 1.0602 97.8 583.56 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 101.04 585.84 Tm /F2 11 Tf -0.0163 Tc 0.033 Tw (] = SO) Tj ET BT 1.0602 0 0 1.0602 127.56 583.56 Tm /F2 6 Tf -0.021 Tc 0 Tw (2) Tj ET BT 0.971 0 0 0.971 130.8 585.84 Tm /F2 11 Tf -0.0343 Tc ($) Tj 3.0896 0 TD /F3 11 Tf -0.0116 Tc (aq) Tj 11.4934 0 TD /F2 11 Tf -0.0146 Tc 0.0313 Tw ($ + H) Tj ET BT 1.0602 0 0 1.0602 165.84 583.56 Tm /F2 6 Tf -0.021 Tc 0 Tw (2) Tj ET BT 0.971 0 0 0.971 169.08 585.84 Tm /F2 11 Tf -0.0401 Tc (O) Tj 85.3974 0 TD -0.0096 Tc (HSO) Tj ET BT 1.0602 0 0 1.0602 271.56 583.56 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 585.84 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.71 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 590.16 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2262) Tj ET BT 0.971 0 0 0.971 72 574.56 Tm /F2 11 Tf -0.0096 Tc (HSO) Tj ET BT 1.0602 0 0 1.0602 91.56 572.28 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 574.56 Tm /F2 11 Tf -0.0126 Tc (SO) Tj ET BT 1.0602 0 0 1.0602 264.6 572.28 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 574.56 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.20 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 578.88 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2262) Tj ET BT 0.971 0 0 0.971 72 563.28 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 561 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 82.2 563.28 Tm /F2 11 Tf -0.0417 Tc (PO) Tj ET BT 1.0602 0 0 1.0602 95.16 561 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 252 563.28 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 258.96 561 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 262.2 563.28 Tm /F2 11 Tf -0.0417 Tc (PO) Tj ET BT 1.0602 0 0 1.0602 275.16 561 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 563.28 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (7.52 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 567.6 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2263) Tj ET BT 0.971 0 0 0.971 72 552 Tm /F2 11 Tf -0.0076 Tc (Fe$H) Tj ET BT 1.0602 0 0 1.0602 92.52 549.72 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 95.76 552 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 106.08 549.72 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (3+) Tj ET BT 0.971 0 0 0.971 252 552 Tm /F2 11 Tf -0.0076 Tc (Fe$H) Tj ET BT 1.0602 0 0 1.0602 272.52 549.72 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 275.76 552 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 286.08 549.72 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 289.32 552 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 303.6 556.32 Tm /F2 6 Tf 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 432 552 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.84 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 556.32 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2263) Tj ET BT 0.971 0 0 0.971 72 540.72 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 538.44 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 540.72 Tm /F2 11 Tf 0.0466 Tc (C) Tj ET BT 1.0602 0 0 1.0602 88.44 538.44 Tm /F2 6 Tf -0.021 Tc (8) Tj ET BT 0.971 0 0 0.971 91.68 540.72 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 98.64 538.44 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 101.88 540.72 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 109.2 538.44 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 112.44 540.72 Tm /F2 11 Tf -0.0343 Tc 0.0515 Tw ( $) Tj 5.4377 0 TD /F3 11 Tf -0.0569 Tc 0 Tw (o) Tj 5.6849 0 TD /F2 11 Tf -0.008 Tc 0.0244 Tw (\226phthalic acid$) Tj 132.6069 0 TD 0.0214 Tc 0 Tw (HC) Tj ET BT 1.0602 0 0 1.0602 265.2 538.44 Tm /F2 6 Tf -0.021 Tc (8) Tj ET BT 0.971 0 0 0.971 268.44 540.72 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 275.4 538.44 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 278.64 540.72 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 285.96 538.44 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 540.72 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.30 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 545.04 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2263) Tj ET BT 0.971 0 0 0.971 72 529.44 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 527.16 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 529.44 Tm /F2 11 Tf 0.0466 Tc (C) Tj ET BT 1.0602 0 0 1.0602 88.44 527.16 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 91.68 529.44 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 98.64 527.16 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 101.88 529.44 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 109.2 527.16 Tm /F2 6 Tf -0.021 Tc (6) Tj ET BT 0.971 0 0 0.971 112.44 529.44 Tm /F2 11 Tf -0.0087 Tc 0.0252 Tw ( $tartaric acid$) Tj 143.7296 0 TD 0.0214 Tc 0 Tw (HC) Tj ET BT 1.0602 0 0 1.0602 265.2 527.16 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 268.44 529.44 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 275.4 527.16 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 278.64 529.44 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 285.96 527.16 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 529.44 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.04 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 533.76 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2263) Tj ET BT 0.971 0 0 0.971 72 518.16 Tm /F2 11 Tf -0.0029 Tc (Hg$H) Tj ET BT 1.0602 0 0 1.0602 94.92 515.88 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 98.16 518.16 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 108.48 515.88 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 518.16 Tm /F2 11 Tf -0.0029 Tc (Hg$H) Tj ET BT 1.0602 0 0 1.0602 274.92 515.88 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 278.16 518.16 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 288.48 515.88 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 291.72 518.16 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 306 522.48 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 518.16 Tm /F2 11 Tf 0.015 Tc 0 Tw (2.6 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 522.48 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2264) Tj ET BT 0.971 0 0 0.971 72 506.88 Tm /F2 11 Tf -0.0181 Tc (Sn$H) Tj ET BT 1.0602 0 0 1.0602 93.12 504.6 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.36 506.88 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 106.68 504.6 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 506.88 Tm /F2 11 Tf -0.0181 Tc (Sn$H) Tj ET BT 1.0602 0 0 1.0602 273.12 504.6 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.36 506.88 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 286.68 504.6 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 289.92 506.88 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 304.2 511.2 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 506.88 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~2 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 511.2 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2264) Tj ET BT 0.971 0 0 0.971 72 495.6 Tm /F2 11 Tf 0.0009 Tc (HCO) Tj ET BT 1.0602 0 0 1.0602 92.52 493.32 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 95.76 495.6 Tm /F2 11 Tf -0.0026 Tc 0.0189 Tw (H $formic acid$) Tj 160.9079 0 TD 0.0009 Tc 0 Tw (HCO) Tj ET BT 1.0602 0 0 1.0602 272.52 493.32 Tm /F2 6 Tf -0.021 Tc (2) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 495.6 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.9 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 499.92 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2264) Tj ET BT 0.971 0 0 0.971 72 484.32 Tm /F2 11 Tf -0.0011 Tc (Cr$H) Tj ET BT 1.0602 0 0 1.0602 91.68 482.04 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 94.92 484.32 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 105.24 482.04 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (3+) Tj ET BT 0.971 0 0 0.971 252 484.32 Tm /F2 11 Tf -0.0011 Tc (Cr$H) Tj ET BT 1.0602 0 0 1.0602 271.68 482.04 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 274.92 484.32 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 285.24 482.04 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 288.48 484.32 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 302.76 488.64 Tm /F2 6 Tf 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 432 484.32 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.6 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 488.64 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2264) Tj ET BT 0.971 0 0 0.971 72 473.04 Tm /F2 11 Tf 0.0133 Tc (Hg) Tj ET BT 1.0602 0 0 1.0602 84.96 470.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 88.2 473.04 Tm /F2 11 Tf -0.019 Tc ($H) Tj ET BT 1.0602 0 0 1.0602 98.16 470.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 101.4 473.04 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 111.72 470.76 Tm /F2 6 Tf -0.021 Tc (2) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 473.04 Tm /F2 11 Tf 0.0133 Tc (Hg) Tj ET BT 1.0602 0 0 1.0602 264.96 470.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 268.2 473.04 Tm /F2 11 Tf -0.019 Tc ($H) Tj ET BT 1.0602 0 0 1.0602 278.16 470.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 281.4 473.04 Tm /F2 11 Tf -0.0295 Tc (O$OH) Tj ET BT 1.0602 0 0 1.0602 306 477.36 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 473.04 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~1 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 477.36 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2264) Tj ET BT 0.971 0 0 0.971 72 461.76 Tm /F2 11 Tf 0.0466 Tc (C) Tj ET BT 1.0602 0 0 1.0602 78.24 459.48 Tm /F2 6 Tf -0.021 Tc (6) Tj ET BT 0.971 0 0 0.971 81.48 461.76 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 88.44 459.48 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 91.68 461.76 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 105.24 459.48 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 108.48 461.76 Tm /F2 11 Tf 0.0029 Tc 0.0133 Tw (H $benzoic acid$) Tj 147.8079 0 TD 0.0466 Tc 0 Tw (C) Tj ET BT 1.0602 0 0 1.0602 258.24 459.48 Tm /F2 6 Tf -0.021 Tc (6) Tj ET BT 0.971 0 0 0.971 261.48 461.76 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 268.44 459.48 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 271.68 461.76 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 285.24 459.48 Tm /F2 6 Tf -0.021 Tc (2) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 461.76 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (6.46 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 466.08 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 450.48 Tm /F2 11 Tf 0.0214 Tc (HC) Tj ET BT 1.0602 0 0 1.0602 85.2 448.2 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 88.44 450.48 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 95.76 448.2 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 102.24 450.48 Tm /F2 11 Tf -0.0039 Tc 0.0202 Tw ( $hydrogen oxalate$) Tj 154.2343 0 TD 0.0466 Tc 0 Tw (C) Tj ET BT 1.0602 0 0 1.0602 258.24 448.2 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 261.48 450.48 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 268.8 448.2 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 450.48 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (6.40 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 454.8 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 439.2 Tm /F2 11 Tf 0.0214 Tc (HC) Tj ET BT 1.0602 0 0 1.0602 85.2 436.92 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 88.44 439.2 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 95.4 436.92 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 98.64 439.2 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 105.96 436.92 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 112.44 439.2 Tm /F2 11 Tf -0.0121 Tc 0.0287 Tw ( $hydrogen tartrate$) Tj 143.7296 0 TD 0.0466 Tc 0 Tw (C) Tj ET BT 1.0602 0 0 1.0602 258.24 436.92 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 261.48 439.2 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 268.44 436.92 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 271.68 439.2 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 279 436.92 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 439.2 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (4.55 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 443.52 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 427.92 Tm /F2 11 Tf 0.0214 Tc (CH) Tj ET BT 1.0602 0 0 1.0602 85.2 425.64 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 88.44 427.92 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 102 425.64 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 105.24 427.92 Tm /F2 11 Tf 0.0008 Tc 0.0153 Tw (H $acetic acid$) Tj 151.1447 0 TD 0.0214 Tc 0 Tw (CH) Tj ET BT 1.0602 0 0 1.0602 265.2 425.64 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 268.44 427.92 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 282 425.64 Tm /F2 6 Tf -0.021 Tc (2) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 427.92 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (1.76 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 432.24 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 416.64 Tm /F2 11 Tf -0.0187 Tc (Al$H) Tj ET BT 1.0602 0 0 1.0602 90.96 414.36 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 94.2 416.64 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 104.52 414.36 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (3+) Tj ET BT 0.971 0 0 0.971 252 416.64 Tm /F2 11 Tf -0.0187 Tc (Al$H) Tj ET BT 1.0602 0 0 1.0602 270.96 414.36 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 274.2 416.64 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 284.52 414.36 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 287.76 416.64 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 302.04 420.96 Tm /F2 6 Tf 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 432 416.64 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.4 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 420.96 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 405.36 Tm /F2 11 Tf -0.0043 Tc (Be$H) Tj ET BT 1.0602 0 0 1.0602 93.12 403.08 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.36 405.36 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 106.68 403.08 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 405.36 Tm /F2 11 Tf -0.0043 Tc (Be$H) Tj ET BT 1.0602 0 0 1.0602 273.12 403.08 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.36 405.36 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 286.68 403.08 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 289.92 405.36 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 304.2 409.68 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 405.36 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~1 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 409.68 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2265) Tj ET BT 0.971 0 0 0.971 72 394.08 Tm /F2 11 Tf 0.0214 Tc (HC) Tj ET BT 1.0602 0 0 1.0602 85.2 391.8 Tm /F2 6 Tf -0.021 Tc (8) Tj ET BT 0.971 0 0 0.971 88.44 394.08 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 95.4 391.8 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 98.64 394.08 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 105.96 391.8 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 112.44 394.08 Tm /F2 11 Tf -0.0088 Tc 0.0253 Tw ( $hydrogen phthalate$) Tj 143.7296 0 TD 0.0466 Tc 0 Tw (C) Tj ET BT 1.0602 0 0 1.0602 258.24 391.8 Tm /F2 6 Tf -0.021 Tc (8) Tj ET BT 0.971 0 0 0.971 261.48 394.08 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 268.44 391.8 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 271.68 394.08 Tm /F2 11 Tf -0.0401 Tc (O) Tj ET BT 1.0602 0 0 1.0602 279 391.8 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 394.08 Tm /F2 11 Tf 0.015 Tc 0 Tw (3.1 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 398.4 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2266) Tj ET BT 0.971 0 0 0.971 72 382.8 Tm /F2 11 Tf -0.004 Tc (Cd$H) Tj ET BT 1.0602 0 0 1.0602 94.2 380.52 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 97.44 382.8 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.76 380.52 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 382.8 Tm /F2 11 Tf -0.004 Tc (Cd$H) Tj ET BT 1.0602 0 0 1.0602 274.2 380.52 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 277.44 382.8 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.76 380.52 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 291 382.8 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 305.28 387.12 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 382.8 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (8.32 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 387.12 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2267) Tj ET BT 0.971 0 0 0.971 72 371.52 Tm /F2 11 Tf 0.0009 Tc (Cu$H) Tj ET BT 1.0602 0 0 1.0602 94.08 369.24 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 97.32 371.52 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.64 369.24 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 371.52 Tm /F2 11 Tf 0.0009 Tc (Cu$H) Tj ET BT 1.0602 0 0 1.0602 274.08 369.24 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 277.32 371.52 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.64 369.24 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 290.88 371.52 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 305.16 375.84 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 371.52 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~5 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 375.84 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2267) Tj ET BT 0.971 0 0 0.971 72 360.24 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 357.96 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 360.24 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 95.76 357.96 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 252 360.24 Tm /F2 11 Tf 0.0009 Tc (HCO) Tj ET BT 1.0602 0 0 1.0602 272.52 357.96 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 360.24 Tm /F2 11 Tf 0.015 Tc 0 Tw (4.3 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 364.56 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2267) Tj ET BT 0.971 0 0 0.971 72 348.96 Tm /F2 11 Tf -0.0025 Tc (HCrO) Tj ET BT 1.0602 0 0 1.0602 96 346.68 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 348.96 Tm /F2 11 Tf -0.0021 Tc (CrO) Tj ET BT 1.0602 0 0 1.0602 269.04 346.68 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 348.96 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (3.20 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 353.28 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2267) Tj ET BT 0.971 0 0 0.971 72 337.68 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 335.4 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 337.68 Tm /F2 11 Tf 0.0149 Tc (S) Tj 174.8731 0 TD 0.0056 Tc (HS) Tj ET BT 1.0602 0 0 1.0602 264.24 342 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 337.68 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.2 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 342 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2267) Tj ET BT 0.971 0 0 0.971 72 326.4 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 324.12 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 326.4 Tm /F2 11 Tf -0.0417 Tc (PO) Tj ET BT 1.0602 0 0 1.0602 95.16 324.12 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 326.4 Tm /F2 11 Tf -0.0291 Tc (HPO) Tj ET BT 1.0602 0 0 1.0602 271.92 324.12 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 326.4 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (6.23 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 330.72 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2268) Tj ET BT 0.971 0 0 0.971 72 315.12 Tm /F2 11 Tf -0.0096 Tc (HSO) Tj ET BT 1.0602 0 0 1.0602 91.56 312.84 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 315.12 Tm /F2 11 Tf -0.0126 Tc (SO) Tj ET BT 1.0602 0 0 1.0602 264.6 312.84 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 315.12 Tm /F2 11 Tf 0.015 Tc 0 Tw (6.0 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 319.44 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2268) Tj ET BT 0.971 0 0 0.971 72 303.84 Tm /F2 11 Tf 0.006 Tc 0.01 Tw (HOCl ) Tj 185.3778 0 TD 0.0093 Tc 0 Tw (OCl) Tj ET BT 1.0602 0 0 1.0602 268.08 308.16 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 303.84 Tm /F2 11 Tf 0.015 Tc 0 Tw (2.8 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 308.16 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2268) Tj ET BT 0.971 0 0 0.971 72 292.56 Tm /F2 11 Tf -0.0093 Tc (Pb$H) Tj ET BT 1.0602 0 0 1.0602 93.72 290.28 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.96 292.56 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.28 290.28 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 292.56 Tm /F2 11 Tf -0.0093 Tc (Pb$H) Tj ET BT 1.0602 0 0 1.0602 273.72 290.28 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.96 292.56 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.28 290.28 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 290.52 292.56 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 304.8 296.88 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 292.56 Tm /F2 11 Tf 0.015 Tc 0 Tw (1.3 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 296.88 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2268) Tj ET BT 0.971 0 0 0.971 72 281.28 Tm /F2 11 Tf -0.0216 Tc (HOBr) Tj 185.3778 0 TD -0.0276 Tc (OBr) Tj ET BT 1.0602 0 0 1.0602 268.56 285.6 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 281.28 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (2.06 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 285.6 Tm /F2 6 Tf 0.018 Tc 0 Tw (\2269) Tj ET BT 0.971 0 0 0.971 72 270 Tm /F2 11 Tf -0.0038 Tc (H) Tj ET BT 1.0602 0 0 1.0602 78.96 267.72 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 82.2 270 Tm /F2 11 Tf -0.0349 Tc (BO) Tj ET BT 1.0602 0 0 1.0602 95.28 267.72 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 98.52 270 Tm /F2 11 Tf -0.0197 Tc 0.0365 Tw ( or B$OH$) Tj ET BT 1.0602 0 0 1.0602 138.48 267.72 Tm /F2 6 Tf -0.021 Tc 0 Tw (3) Tj ET BT 0.971 0 0 0.971 252 270 Tm /F2 11 Tf -0.0284 Tc (B$OH$) Tj ET BT 1.0602 0 0 1.0602 278.04 267.72 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 270 Tm /F2 11 Tf 0.015 Tc 0 Tw (5.8 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 274.32 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22610) Tj ET BT 0.971 0 0 0.971 72 258.72 Tm /F2 11 Tf 0.025 Tc (NH) Tj ET BT 1.0602 0 0 1.0602 86.04 256.44 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 252 258.72 Tm /F2 11 Tf 0.025 Tc (NH) Tj ET BT 1.0602 0 0 1.0602 266.04 256.44 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 432 258.72 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (5.65 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 263.04 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22610) Tj ET BT 0.971 0 0 0.971 72 247.44 Tm /F2 11 Tf -0.0286 Tc (Zn$H) Tj ET BT 1.0602 0 0 1.0602 93.72 245.16 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.96 247.44 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.28 245.16 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 247.44 Tm /F2 11 Tf -0.0286 Tc (Zn$H) Tj ET BT 1.0602 0 0 1.0602 273.72 245.16 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.96 247.44 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.28 245.16 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 290.52 247.44 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 304.8 251.76 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 247.44 Tm /F2 11 Tf 0.015 Tc 0 Tw (2.5 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 251.76 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22610) Tj ET BT 0.971 0 0 0.971 72 236.16 Tm /F2 11 Tf 0.0093 Tc (Ni$H) Tj ET BT 1.0602 0 0 1.0602 91.56 233.88 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 94.8 236.16 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 105.12 233.88 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 236.16 Tm /F2 11 Tf 0.0093 Tc (Ni$H) Tj ET BT 1.0602 0 0 1.0602 271.56 233.88 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 274.8 236.16 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 285.12 233.88 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 288.36 236.16 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 302.64 240.48 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 236.16 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~6 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 240.48 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22611) Tj ET BT 0.971 0 0 0.971 72 224.88 Tm /F2 11 Tf 0.0009 Tc (HCO) Tj ET BT 1.0602 0 0 1.0602 92.52 222.6 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 224.88 Tm /F2 11 Tf 0.0033 Tc (CO) Tj ET BT 1.0602 0 0 1.0602 265.56 222.6 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 224.88 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (5.61 x 10) Tj ET BT 1.0602 0 0 1.0602 471.24 229.2 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22611) Tj ET BT 0.971 0 0 0.971 72 213.6 Tm /F2 11 Tf 0.0064 Tc (Co$H) Tj ET BT 1.0602 0 0 1.0602 94.08 211.32 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 97.32 213.6 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.64 211.32 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 213.6 Tm /F2 11 Tf 0.0064 Tc (Co$H) Tj ET BT 1.0602 0 0 1.0602 274.08 211.32 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 277.32 213.6 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.64 211.32 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 290.88 213.6 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 305.16 217.92 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 213.6 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~4 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 217.92 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22611) Tj ET BT 0.971 0 0 0.971 72 202.32 Tm /F2 11 Tf -0.0258 Tc (HOI) Tj 185.3778 0 TD -0.0368 Tc (OI) Tj ET BT 1.0602 0 0 1.0602 261.84 206.64 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 360 202.32 Tm /F2 11 Tf 0 Tc 0.0162 Tw ( ) Tj 74.1511 0 TD 0.015 Tc 0 Tw (2.3 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 206.64 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22611) Tj ET BT 0.971 0 0 0.971 72 191.04 Tm /F2 11 Tf -0.0076 Tc (Fe$H) Tj ET BT 1.0602 0 0 1.0602 92.52 188.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 95.76 191.04 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 106.08 188.76 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 191.04 Tm /F2 11 Tf -0.0076 Tc (Fe$H) Tj ET BT 1.0602 0 0 1.0602 272.52 188.76 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 275.76 191.04 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 286.08 188.76 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 289.32 191.04 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 303.6 195.36 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 191.04 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~1 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 195.36 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22611) Tj ET BT 0.971 0 0 0.971 72 179.76 Tm /F2 11 Tf -0.0082 Tc (Mn$H) Tj ET BT 1.0602 0 0 1.0602 96.48 177.48 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 99.72 179.76 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 110.04 177.48 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 179.76 Tm /F2 11 Tf -0.0082 Tc (Mn$H) Tj ET BT 1.0602 0 0 1.0602 276.48 177.48 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 279.72 179.76 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 290.04 177.48 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 293.28 179.76 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 307.56 184.08 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 179.76 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~6 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 184.08 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22612) Tj ET BT 0.971 0 0 0.971 72 168.48 Tm /F2 11 Tf 0.0117 Tc (Mg$H) Tj ET BT 1.0602 0 0 1.0602 96.6 166.2 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 99.84 168.48 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 110.16 166.2 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 168.48 Tm /F2 11 Tf 0.0117 Tc (Mg$H) Tj ET BT 1.0602 0 0 1.0602 276.6 166.2 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 279.84 168.48 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 290.16 166.2 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 293.4 168.48 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 307.68 172.8 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 168.48 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~4 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 172.8 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22612) Tj ET BT 0.971 0 0 0.971 72 157.2 Tm /F2 11 Tf -0.0165 Tc (Ag$H) Tj ET BT 1.0602 0 0 1.0602 94.44 154.92 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 97.68 157.2 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 108 154.92 Tm /F2 6 Tf -0.021 Tc (2) Tj 3.0559 6.2251 TD 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 252 157.2 Tm /F2 11 Tf -0.0165 Tc (Ag$H) Tj ET BT 1.0602 0 0 1.0602 274.44 154.92 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 277.68 157.2 Tm /F2 11 Tf -0.0305 Tc (O$OH$) Tj 28.4246 0 TD /F3 11 Tf -0.0246 Tc (s) Tj 4.0783 0 TD /F2 11 Tf -0.0343 Tc ($) Tj 126.4277 0 TD 0.0189 Tc -0.0033 Tw (~7 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 161.52 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22613) Tj ET BT 0.971 0 0 0.971 72 145.92 Tm /F2 11 Tf -0.0291 Tc (HPO) Tj ET BT 1.0602 0 0 1.0602 91.92 143.64 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 252 145.92 Tm /F2 11 Tf -0.0417 Tc (PO) Tj ET BT 1.0602 0 0 1.0602 264.96 143.64 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0386 Tc (3\226) Tj ET BT 0.971 0 0 0.971 432 145.92 Tm /F2 11 Tf 0.015 Tc 0 Tw (4.5 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 150.24 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22613) Tj ET BT 0.971 0 0 0.971 475.44 145.92 Tm /F2 11 Tf 0 Tc 0.0162 Tw ( ) Tj -415.4935 -11.617 TD -0.0187 Tc 0 Tw (Al$H) Tj ET BT 1.0602 0 0 1.0602 90.96 132.36 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 94.2 134.64 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 104.52 132.36 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 107.76 134.64 Tm /F2 11 Tf -0.0281 Tc ($OH$) Tj ET BT 1.0602 0 0 1.0602 128.04 132.36 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 131.28 134.64 Tm /F2 11 Tf -0.0343 Tc ($) Tj 3.0896 0 TD /F3 11 Tf -0.0246 Tc (s) Tj 4.0783 0 TD /F2 11 Tf -0.0343 Tc ($) Tj 117.1588 0 TD -0.0187 Tc (Al$H) Tj ET BT 1.0602 0 0 1.0602 270.96 132.36 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 274.2 134.64 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 284.52 132.36 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 287.76 134.64 Tm /F2 11 Tf -0.0281 Tc ($OH$) Tj ET BT 1.0602 0 0 1.0602 308.04 132.36 Tm /F2 6 Tf -0.021 Tc (4) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 134.64 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~4 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 138.96 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22613) Tj ET BT 0.971 0 0 0.971 72 123.36 Tm /F2 11 Tf 0.0052 Tc (Ca$H) Tj ET BT 1.0602 0 0 1.0602 93.36 121.08 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.6 123.36 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 106.92 121.08 Tm /F2 6 Tf -0.021 Tc (6) Tj 3.0559 6.2251 TD 0.013 Tc (2+) Tj ET BT 0.971 0 0 0.971 252 123.36 Tm /F2 11 Tf 0.0052 Tc (Ca$H) Tj ET BT 1.0602 0 0 1.0602 273.36 121.08 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.6 123.36 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 286.92 121.08 Tm /F2 6 Tf -0.021 Tc (5) Tj ET BT 0.971 0 0 0.971 290.16 123.36 Tm /F2 11 Tf -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 304.44 127.68 Tm /F2 6 Tf 0.0471 Tc (+) Tj ET BT 0.971 0 0 0.971 432 123.36 Tm /F2 11 Tf 0.015 Tc 0 Tw (3.2 x 10) Tj ET BT 1.0602 0 0 1.0602 465.72 127.68 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22613) Tj ET BT 0.971 0 0 0.971 72 112.08 Tm /F2 11 Tf -0.0286 Tc (Zn$H) Tj ET BT 1.0602 0 0 1.0602 93.72 109.8 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 96.96 112.08 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 107.28 109.8 Tm /F2 6 Tf -0.021 Tc (4) Tj ET BT 0.971 0 0 0.971 110.52 112.08 Tm /F2 11 Tf -0.0281 Tc ($OH$) Tj ET BT 1.0602 0 0 1.0602 130.8 109.8 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 134.04 112.08 Tm /F2 11 Tf -0.0343 Tc ($) Tj 3.0896 0 TD /F3 11 Tf -0.0246 Tc (s) Tj 4.0783 0 TD /F2 11 Tf -0.0343 Tc ($) Tj 114.3163 0 TD -0.0286 Tc (Zn$H) Tj ET BT 1.0602 0 0 1.0602 273.72 109.8 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 276.96 112.08 Tm /F2 11 Tf -0.0372 Tc (O$) Tj ET BT 1.0602 0 0 1.0602 287.28 109.8 Tm /F2 6 Tf -0.021 Tc (3) Tj ET BT 0.971 0 0 0.971 290.52 112.08 Tm /F2 11 Tf -0.0281 Tc ($OH$) Tj ET BT 1.0602 0 0 1.0602 310.8 109.8 Tm /F2 6 Tf -0.021 Tc (3) Tj 3.0559 6.2251 TD -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 396 112.08 Tm /F2 11 Tf 0 Tc 0.0162 Tw ( ) Tj 37.0756 0 TD -0.0284 Tc 0.0455 Tw ( $?$) Tj -370.7556 -11.617 TD -0.0038 Tc 0 Tw (H) Tj ET BT 1.0602 0 0 1.0602 78.96 98.52 Tm /F2 6 Tf -0.021 Tc (2) Tj ET BT 0.971 0 0 0.971 82.2 100.8 Tm /F2 11 Tf -0.0401 Tc (O) Tj 174.8731 0 TD -0.0219 Tc (OH) Tj ET BT 1.0602 0 0 1.0602 266.28 105.12 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 432 100.8 Tm /F2 11 Tf 0.008 Tc 0.008 Tw ($1.0 x 10) Tj ET BT 1.0602 0 0 1.0602 468.72 105.12 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22614) Tj ET BT 0.971 0 0 0.971 478.44 100.8 Tm /F2 11 Tf -0.0343 Tc ($) Tj -418.5831 -11.617 TD 0.0056 Tc (HS) Tj ET BT 1.0602 0 0 1.0602 84.24 93.84 Tm /F2 6 Tf -0.0562 Tc (\226) Tj ET BT 0.971 0 0 0.971 252 89.52 Tm /F2 11 Tf 0.0149 Tc (S) Tj ET BT 1.0602 0 0 1.0602 257.28 93.84 Tm /F2 6 Tf -0.0386 Tc (2\226) Tj ET BT 0.971 0 0 0.971 432 89.52 Tm /F2 11 Tf 0.0189 Tc -0.0033 Tw (~1 x 10) Tj ET BT 1.0602 0 0 1.0602 464.4 93.84 Tm /F2 6 Tf 0.005 Tc 0 Tw (\22619) Tj ET endstream

Rexella Van Impe Net Worth, Articles K

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