Why Does the Pink Color in a Titration Fade Over Time?

In summary, the pink color obtained from the 2-3 phenolphthalein indicator at the end point of the titration gradually disappears over time due to the absorption of CO2 from the air, which produces the weak acid HCOOOH. This results in a drop in pH and the color of phenolphthalein is dependent on the pH of the solution. Adding more NaOH at this point can cause the color to persist longer, but it also results in an inaccurate titration.
  • #1
KarenLo
2
0
How to answer the question: why the pink colour (from 2-3 phenolphthalein indicator) obtained at the end point of the titration in this experiment gradually disappears over time? :confused:
Is it because of that the water will reverse back to the form of H+ and OH-?
 
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  • #2
Equilibrium shifts towards the side where pH is acidic.
 
  • #3
can you tell me in more detail?
you mean HCl + NaOH --> NaCl + H2O? or BaCO3 + HCl --> BaCl2 + H2O + CO2??
 
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  • #4
Hello, I think phenolphthalein begins to decompose with increasing hydrolysis over time. The quinoid form is pinky-purple, but with increasing hydrolysis, acidic products develop and as cronxeh said, the pH is lowered. It is very likely that the carbon dioxide in the medium causes the pH drop, as it gives carbonic acid with water.
 
  • #5
http://www.elmhurst.edu/~chm/vchembook/images2/186phenolph.gif


It depends on which way the reaction went - either increasing in pH (from 8.2 to 10 - becoming red colour) or decreasing in ph (becoming acidic and dropping from 8.2 down - colorless)

So in your case you are asked (probably) to add phenolphtalein into HCl, and then gradually make drops of NaOH while stirring it.

What happens is that phenolphtalein is colorless at first (becomes the environment is acidic - HCl), and stirring the mixture while neutralizing it (adding NaOH) insures that you don't get fooled by forming pink bubbles at individual spots

What happens next is out of my realm but I'm going to imagine here, so bear with me:
phenolphtalein + HCl --> HC2H3O2 (phenolphtalein added to HCl, the pH is less than 8.2 - its colorless)

You titrating (neutralizing):
HC2H3O2 + NaOH --> Na(C2H3O2) + H2O (the pH raises around 8.2 to 10 depending on how vigorously you titrate)

Now during this titration reaction the electrons are free to move between phenolphtalein-HCl juncture and if you stop titrating the color will disappear and pH would drop into acidic range

AFAIK if you titrate fully and reaction is complete the color will stay pink/red depending how much NaOH u added
 
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  • #6
yes it is due to the water which slowly reduses the color:smile: :smile:
 
  • #7
Phenolthalein does NOT decompose at its endpoint pH.
Phenolthalein does NOT re-equilibrate to produce an acidic product at its endpoint pH.

Slightly basic solutions DO absorb CO2 from the air and produce the weak acid HCOOOH. The absorption happens fairly slowly and a faint pink endpoint will gradually fade. Adding more NaOH after the faint endpoint is reached (producing a darker endpoint) will cause the pink solution to persist much longer but also results in an inaccurate titration and should be avoided. When I'm grading a student's lab technique score, these dark endpoints are a guaranteed low score!
 

1. What is the purpose of titrating NaOH and HCl?

The purpose of titrating NaOH and HCl is to determine the concentration of one solution by reacting it with a known concentration of the other solution.

2. What equipment is needed for titration of NaOH and HCl?

The equipment needed for titration includes a burette, a flask or beaker, a pipette, an indicator, and a stirrer. It is also important to have accurate measuring tools, such as a graduated cylinder or volumetric flask, to prepare the solutions.

3. How do you calculate the concentration of the unknown solution using titration?

The concentration of the unknown solution can be calculated using the formula M1V1=M2V2, where M1 is the concentration of the known solution, V1 is the volume of the known solution used, M2 is the concentration of the unknown solution, and V2 is the volume of the unknown solution used.

4. What is the role of an indicator in titration?

An indicator is used in titration to signal the endpoint of the reaction. It changes color when all the reactant in one solution has been consumed by the other solution, indicating that the reaction is complete.

5. How can you ensure accuracy in titration of NaOH and HCl?

To ensure accuracy in titration, it is important to carefully measure and prepare the solutions, use proper techniques for adding the solutions to the reaction flask, and record the volume of the solutions used accurately. It is also important to perform multiple trials and calculate the average result to minimize errors.

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