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Acid base titration
Acid-base titration is a technique used to determine the concentration of an acid or base by neutralizing a solution of unknown concentration with a solution of known concentration. The reaction is monitored using an indicator that changes color at the endpoint of the titration. The document outlines the basic procedure which involves transferring a sample of the solution of unknown concentration into a flask, adding an indicator, and then titrating with the solution of known concentration until the endpoint is reached as indicated by the color change of the indicator. The volume added is used to calculate the concentration of the original unknown solution.
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Presentation on acid-base titration by Debbra Marcel.
Acid-base titration identifies unknown solution concentrations via neutralization using indicators.
Neutralization defines acids and alkalis reacting to form salt and water. Example: NaCl.
Ionic reactions in neutralization shown as H+ + OH- -> H2O. Example includes HCl and NaOH.
Titration involves measuring known volumes of reagents for quantitative analysis.
Common indicators: methyl orange, phenolphthalein, and litmus change colors at various pH levels.
Stepwise guide on performing acid-base titration with sodium hydroxide and hydrochloric acid.
Reiterates the aim of titration: to find the concentration of acid or base solutions.
Preliminary steps include rinse procedures for pipette and burette, ensuring accurate measurements.
Initial and final volume recording during titration. A final volume example of 22.0 cm3 is noted.
Graph indicating pH changes during titration with visual markers for before and at endpoint.
Fundamentals of calculating molarity and volume relations in acid-base reactions.
Steps for calculating moles and concentrations of HCl and NaOH through balanced equations.
Final calculated molarity of sodium hydroxide after titration is 0.088 mol dm-3.
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Acid base titration
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- 2. WHAT IS ACID-BASETITRATION? Acid-base titration is a technique to determine the concentration of an acid or base solutions by neutralizing the unknown concentration of a solution (acid/base) with the known concentration of base/acid. The neutralization reaction is determined by using an indicator where the indicator will change its colour at the end point of the titration. This method allows the quantitative analysis for the unknown acid/alkali concentration.
- 3. What is Neutralisation??? •Acids and alkalis are like ‘chemical opposite’. If we add just the right amount of acid to an alkali, they ‘cancel each other out’, and we get a neutral solution. A chemical reaction takes place. The acid and alkali react together. In any chemical reaction a new substances are made. In this case a salt and water are formed. The reaction is called neutralisation. We can show the reaction like this: Acid + Base Salt + Water Acid + Alkali Salt + Water Did you know? Table salt is often called ‘common salt’. Its chemical name is sodium chloride. There are many other salts that can be made by adding different acids and alkalis together.
- 4. • During theneutralisation, the actual reaction that occurred is between one hydrogen ion H+ from the acid and one hydroxide ion, OH- from the alkali to form one molecule of water, H2O. • The ionic equation between an acid an alkali can be constructed and written as shown below. Chemical Equation: HCl(aq) + NaOH(aq) NaCl(aq) + H2O(l) H+Cl- (aq) + Na+OH- (aq) Na+Cl- (aq) + H2O(l) Ionic Equation: H+ (aq) + OH- (aq) H2O(l) EQUATION
- 5. OVERVIEW • We filla burette with the solution of reagent of known concentration. • The burette is provided with the scales of volume expressing cubic centimeters and 10 of cubic centimeters. • Now we add a known volume of the solution being investigated to a conical flask followed by a few drops of an indicator. • The reagent of known concentration is added in small portion until the indicator just changes colour (end point of the titration-achieved when all the OH- ions combine with all the H+ ions in the solution to form water which is neutral) • The volume of the liquid added from the burette is calculated because the titration technique is based on measurement of volume (volumetric analysis)
- 6. THREE COMMON TYPESOF INDICATORS AT DIFFERENT PH VALUES. Indicator Colour in acids Colour in neutral solution Colour in alkalis Methyl orange Red Orange Yellow Phenolphthalein Colourless Colourless Light Pink Litmus Red Orange Blue
- 7. PROCEDURE OF ACID-BASETITRATION 1) Transfer 25.0 cm3 of sodium hydroxide, NaOH, into a conical flask by using pipette. 2) Put a few drops of phenolphthalein into the sodium hydroxide, NaOH solution. 3) Clamp the burette vertically on the retort stand and fill in with 0.1 mol dm-3 hydrochloric acid, HCl. 4) Place the conical flask containing sodium hydroxide solution on top of the white tile at the base of the retort stand. 5) Record the initial volume of the hydrochloric acid in the burette. 6) Add the hydrochloric acid into the conical flaks slowly until the pink solution changes to colourless while continuously shaking the conical flask. 7) Record the final volume of the hydrochloric acid on the burette. 8) Repeat the titration process three times to obtain more accurate volume of hydrochloric acid at the end point.
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- 9. Answer: To determine theconcentration of an acid or base solutions by neutralizing the unknown concentration of a solution (acid/base) with the known concentration of base/acid.
- 10. Pre-step 1 The pipetterinsed with distilled water followed by sodium hydroxide (NaOH) solution
- 11. Step 1 25.0 cm3of sodium hydroxide, NaOH, transferred into a conical flask by using pipette.
- 12. Step 2 A fewdrops of phenolphthalein added into the sodium hydroxide, NaOH solution.
- 13. Pre-step 3 The buretteis rinsed with distilled water and a little of hydrocloric acid (HCl)
- 14. Step 3 The buretteclamped vertically on the retort stand and filled in with 0.10 mol dm-3 hydrochloric acid, HCl
- 15. Step 4 The conicalflask containing sodium hydroxide solution placed on top of the white tile at the base of the retort stand.
- 16. Step 5 The initialvolume of the hydrochloric acid in the burette is recorded.(must be at 0.0 cm³)
- 17. Step 6 The hydrochloricacid is added into the conical flaks slowly until the pink solution changes to colourless while continuously shaking the conical flask.
- 18. Step 7 The finalvolume of the hydrochloric acid on the burette is recorded. 22.0 cm3
- 19. Step 8 The titrationprocess repeated three times to obtain more accurate volume of hydrochloric acid at the end point.
- 20. GRAPH CHANGES DURINGTITRATION Green button= before end point Red button = end point
- 21. BASIC CONCEPT OFTHE CALCULATION. a Acid + b Alkali Salt + Water Molarity of acid = MA Molarity of alkali = MB Volume of acid = VA Volume of alkali = VB a b = constant (fixed value) MAVA/1000 = a MBVB/1000 b MAVA = a MBVB b
- 22. SOLUTION: 1. Write abalanced equation for the reaction. Deduced the mole ratio of NaOH to HCl 2. Calculate the number of moles of HCl. 3. Calculate the number of moles of NaOH. 4. Equate the mole ratio from step 3 with the mole ratio from step 1 and 2. Solve the value of x.
- 23. Answer:- 1. NaOH (aq)+ HCl (aq) NaCl (aq) + H2O (l) 2. Moles of HCl. = 0.01 mol dm-3 x 0.022 dm3 = 0.0022 mol 0022.0 0250.0 1 1 x HClofmolesofNumber NaOHofmolesofNumber 0250.0 0022.0 x 088.0 3. Moles of sodium hydroxide, NaOH = x mol dm-3 x 0.0250 dm3 = 0.0250x mol 4. Moles equation:- -The molarity of sodium hydroxide, NaOH solution = 0.088 mol dm-3.
- 24. Answer:- The molarity ofsodium hydroxide, NaOH solution = 0.088 mol dm-3