experiment 3 acid and base titration

EXPERIMENT 3: ACID AND BASE TITRATION

Objectives:

To determine the concentration of sodium hydroxide solution through titration technique using

hydrochloric acid and sulfuric acid

Concepts:

1. To determined the concentration of acid and base solution through titration with standard

solution.

2. To apply the correct technique in titration.

3. To carry out acid base titration using phenolphthalein as indicator.

Introduction:

Acid base titration involves a neutralization reaction in which an acid is react with an equivalent

amount of base. For the neutralization of hydrochloric acid with sodium hydroxide:

HCl + NaOH→ H2O + NaCl

Neutralization occurs when acid and bases exist in comparable stoichiometry, for instance the

amount of the hydrochloric acid (mole) is equivalent with the amount of sodium hydroxide

(mole). The endpoint of titration can be determined using indicator.

Apparatus:

Volumetric flask 250 mL

Filter funnel

Erlenmeyer flask

Beaker 1 250 mL

Burette 1 50 mL

Pipette 1 25 mL

Chemical Reagent

a) 100 mL 1.000 × 10-2 M HCl solution

b) 100 mL 1.000 × 10-2 M H2SO4 solution

c) 10 mL C solution containing NaOH (with pipette)

d) Phenolphthalien solution

Methods:

1. 10 mL of C solution are put in volumetric flask, dilutes with distilled water to the mark and

mix thoroughly. Transfer the solution to the clean beaker. Labelled solution as C. Rinse a

flask with water twice.

2. Burettes are clean and rinse with 5 mL HCl solution (1.000×10-2 M) twice. Place 25 mL of

HCl solution (1.000 × 10-2) to burette using funnel.

3. Pipettes are clean and rinse twice using C solution. Pipette 25 mL of C solution in three

Erlenmeyer flask. Adds 2 of phenolphthalein indicator.

4. The initial volumes are recorded to the nearest two decimal point. Titrate C solution with

HCl from the burette to colourless solution end point. Record the final volume reading and

calculate the used acid volume.

Note: phenolphthalein colour will change from magenta (base) to colourless (acid)

5. The titration are repeated until the different volume of acid is in the range of 0.30 for three

experiments.

6. Concentration of NaOH solution (that was in flask) and the concentration of C are calculated.

7. Steps 3 and 7 are repeated by replace HCl with H2SO4.

Result:

Titration between HCl and NaOH

1. Volume of HCl need for the titration:

Trial 1: 1.4 mL

Trial 2: 1.0 mL

Trial 3: 1.0 mL

2. Concentration of NaOH by using each trial volume:

Trial 1: 0.0056M

Trial 2: 0.004 M

Trial 3: 0.004 M

Average of concentration NaOH solution = 0.0056 + 0.004 + 0.004 3= 0.0045 M

Titration between H2SO4 and NaOH

1. Volume of H2SO4 need for the titration:

Trial 1: 1.1 mL

Trial 2: 0.6 mL

Trial 3: 0.7 mL

2. Concentration of NaOH by using each trial volume:

Trial 1: 0.0088M

Trial 2: 0.0048 M

Trial 3: 0.0056 M

Average of concentration NaOH solution = 0.0088 + 0.0048 + 0.0056 3

= 0.0064 M

Data Analysis

1. Chemical equation for the reaction between hydrochloric acid and sodium hydroxide

HCl + NaOH →NaCl + H2O

Trial 1:

n =MV

n HCl = 0.1 × 1.4

= 0.14 mol

From the equation 1 mol HCl need 1 mol NaOH to form 1 mol NaCl and 1 mol of water.

If the mol of HCl is 0.14M, so the mole of NaOH also 0.14 M

Concentration of NaOH, M = n / V

= 0.14/ 25

= 0.0056 M

Standard deviation = 0.0056 - 0.0045 100 0.0045= 24.44

Trial 2:

n =MV

n HCl = 0.1 × 1.0

= 0.10 mol


If the mole of HCl is 0.10 mol, so the mol of NaOH is also 0.10 mol.


= 0.10/ 25

= 0.0040 Molar


Trial 3:

n =MV

n HCl = 0.1 × 1.0

= 0.10 mol


If the mole of HCl is 0.10M, so the mol of NaOH also 0.10 M


= 0.10/ 25

= 0.0040 Molar


2. Chemical equation for the reaction between Sulfuric acid and Sodium hydroxide.

H2SO4 + 2NaOH → Na2SO4 + 2H2O

Trial 1:

n =MV

n H2SO4 = 0.1 × 1.1

= 0.11 M

From the equation, 1 mole H2SO4 need 2 mole of the NaOH to produce 1 mole of Na2SO4

and 2 mole of water.

If got 0.11 mole of H2SO4, the reaction needed 0.22 mole of NaOH.

Concentration of NaOH, M = n ∕ V

= 0.22/ 25

= 0.0088 M

Standard deviation = 0.0088 - 0.0064 1000.0064

= 37.5

Trial 2:

n =MV

n H2SO4 = 0.1 × 0.6

= 0.06 mole




Concentration of NaOH, M = n ∕ V

= 0.12 / 25

= 0.0048 M


= -25

Trial 3:

n =MV n H2SO4 = 0.1 × 0.7

= 0.07 mol




Concentartion of NaOH, M = n ∕ V

= 0.14/ 25

= 0.0056 M


= -12.5

The result is summarized below:

For the reaction between HCl with NaOH

Trial 1 Trial 2 Trial 3Concentration of NaOH (M)

0.0056 0.0040 0.0040

Standard deviation 24.44 11.11 11.11

For the reaction between H2SO4 with NaOH

Trial 1 Trial 2 Trial 3Concentration of NaOH (M)

0.0088 0.0048 0.0056

Standard deviation 37.5 25.00 12.50

Discussion:

Titration is a technique for determining either the concentration of a solution of unknown

molarity or the number of moles of a substance in a given sample. A chemical reaction is used

for this purpose, and the reaction must be fast, be complete, and have a determinable end point.

The reactions of strong acids and bases generally meet these criteria, and acid-base titrations are

among the most important examples of this technique.

In this experiment, the sample is hydrochloric acid and sulfuric acid as acid substance

and sodium hydroxide as base substance where the concentration of sodium hydroxide unknown.

Given that, the concentration of the both acid are 0.1 M.

An indicator is used as signal the point which the titration is stopped. An acid-base

indicator is a weak acid or base that has a different colour from its salt. At least one of them-the

indicator or its salt-must be intensely coloured so that it can be seen even in very dilute solution.

The colour of the solution is thus different depending on the acidity or basicity of the solution it

is in, and when the acidity of a solution changes sufficiently, a colour change will occur.

In acid base reaction, the general equation is,

HA + MOH H2O + MA

Acid base water salt

The end point is the neutral point. In end point of acid-base titration, there are produced salt and

water that are neutral (pH7). For most strong acid-strong base reactions, ionic equation is:

H+ + OH- H2O

In this experiment, the indicator that use is phenolphthalein. If we use base as titrant, and

acid as solution in the Erlenmeyer flask, at the end point, the solution in the Erlenmeyer flask

will turn to light pink. If we use acid as titrant, and base as solution in the Erlenmeyer flask, at

the end point, the solution in the Erlenmeyer flask will turn to colourless. For this experiment,

the solution turn from the purple to colourless.

The chemical equation is,

The reaction between HCl and NaOH,

HCl + NaOH →NaCl + H2O

The reaction between H2SO4 and NaOH

H2SO4 + 2NaOH → Na2SO4 + 2H2O

The different between the reactions is the ionize of the acid. HCl is monoprotic acid, while

H2SO4 is diprotic acid.

A diprotic acid is an acid that yields two H+ ions per acid molecule. Examples of diprotic acids

are sulfuric acid, H2SO4, and carbonic acid, H2CO3. A diprotic acid dissociates in water in two

stages:

(1) H2X(aq) H+(aq) + HX-

(aq)

(2) HX-(aq) H+

(aq) + X2-(aq)

A monoprotic acid is an acid that yields only one H+ ions per acid molecule. Example of

monoprotic acid is Hydrochloric acid. While H2SO4 is a diprotic acid that’s yield two mole of H+.

The mean, when the acid dissociate with NaOH, H2SO4 will need 1 mole of H2SO4 while the

NaOH needed 2 mole. That’s mean, we need less amount of acid if we use diprotic acid. That’s

why the volume of H2SO4 that has been use is less than HCl.

In this experiment, there are some mistake like use more than acid volume to titrate

solution C or NaOH. The volume has pass the end point, so the volume uses is much more than

needed. To overcome this problem, we can titrate slowly and shake the volumetric flask for

about 30 second when the solutions show changing in colour from dark purple to colourless. The

other reasons is the using of volumetric flask that’s had been used with other solution. So, the

concentration of newest solution will affect. To overcome this problem, we must make sure the

volumetric flask is totally clean and dry. That’s problems had affect our result. That’s why our

result is not precise and accurate to the correct value. We can see that from the standard

deviation. But, we had seen the distribution of result is in range of 0.0045 M to 0.0065 M. If we

refer to trial 2 and 3 from titration between HCl and solution C (NaOH), the result might be said

as 0.004 M base on the standard deviation. The standard deviation is the lowest among others

and can be said as accepted result. But, for the titration using H2SO4, the accepted value for

concentration of solution C (NaOH) is 0.0056 M.

Conclusion:

The concentration and mole of acid or base can be determined using titration process by a given

value for one of the substance. The accepted values of concentration NaOH using HCl is 0.0040

M, but the value of concentration NaOH using H2SO4 is 0.0056 M.

Reference:

1. http://dwb.unl.edu/calculators/activities/DiproticAcid.html

2. http://www.biochem.northwestern.edu/holmgren/Glossary/Definitions/Def-M/

monoprotic_acid.html

3. Fundamental of Chemistry, David E. Goldberg, Mc Graw Hill, 303.

experiment 3 acid and base titration

Documents