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The indicator should change color right at the equivalence point, so 5.

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Changes color at the endpoint of titration?

The color change at the endpoint of a titration is due to the indicator used in the titration process. The indicator changes color based on the pH of the solution, signaling the completion of the reaction between the analyte and titrant. This color change helps determine the equivalence point of the titration.


Why would phenolpthalein not be a suitable indicator for the standardisation of hydrochloric acid with Borax?

Phenolphthalein is not suitable for titration involving Borax and hydrochloric acid because it changes color at a pH lower (usually around pH 8-9) than the equivalence point of this specific titration. Borax reacts as a weak base while hydrochloric acid is a strong acid, making the equivalence point acidic in nature. A suitable indicator would need to change color near this acidic pH of the equivalence point.


Describe a method to visually detect the end point of a titration without the use of instruments?

The method used most often in chemistry labs is by use of a pH indicator in the sample being titrated. When you reach the titration point, the indicator will change colors, demonstrating the end point of the titration.


Why does the pH change rapidly at the equivalence point of a titration?

The equivalence point represents a region where the amount of acid to base (or base to acid) concentration is equal. Before the equivalence point there is a greater amount of acid (or base, depending on the titration). After the titration there is a greater amount of base (or acid). This reverse in dominance results in a dramatic change in pH.


The equivalence point reached when the pH reaches it maximum value?

The equivalence point is reached in a titration when the moles of acid are equal to the moles of base added. At the equivalence point, the pH of the solution is at its maximum or minimum value, depending on whether a strong acid or base is used in the titration.

Related Questions

How you select that which indicator should be used in any titration?

The selection of an indicator for a titration is based on the pH range over which the titration will occur. The indicator should have a color change that aligns with the pH at the equivalence point of the titration. Choosing an indicator with a pH range that encompasses the equivalence point will ensure accurate endpoint detection.


What is the difference between end point titration and equivalence point?

Endpoint titration refers to the point in a titration where the indicator changes color, signaling that the reaction is complete. Equivalence point, on the other hand, is the point in the titration where the moles of the titrant are stoichiometrically equal to the moles of the analyte. The equivalence point does not necessarily coincide with the endpoint, as the indicator may change color before or after reaching the equivalence point.


What color will a solution be at the equivalence point of titration?

The color of a solution at the equivalence point of a titration depends on the type of indicator used. The indicator changes color at a specific pH value, signaling the completion of the reaction. Common indicators like phenolphthalein turn pink at the equivalence point of an acid-base titration.


In a titration when does the indicator change color?

when the equivalence point of a titration is achieved.. Added: (More precisely:) The equivalence point is the point where the number of moles of base equal the number of moles of acid. The end point is the point where the indicator being used changes color (also 'indication point)'. If the indicator is chosen correctly, the end point will essentially be exactly as near as possible at the equivalence point. The point of the titration is to find the equivalence point -- the end point is just a very close approximation to it. This is because the pH of the solution changes very rapidly close to the equivalence point. Therefore, the indicator will change color very close to the equivalence point because of the steepness of the pH change


Does The equivalence point and the end point of a titration occur at the same place in a titration?

The equivalence point and the end point of a titration do not always occur at the same place. The equivalence point is the point at which stoichiometrically equivalent amounts of reactants have been mixed, while the end point is when the indicator changes color. In ideal conditions, the end point would occur at the equivalence point, but this is not always the case due to factors like human error or issues with the indicator.


What methods can be used to find the equivalence point in a titration experiment?

In a titration experiment, the equivalence point can be found using methods such as using a pH meter to detect a sudden change in pH, using an indicator that changes color at the equivalence point, or using a titration curve to identify the point of neutralization.


How to find the equivalence point of a titration?

To find the equivalence point of a titration, you can use an indicator that changes color at the pH of the equivalence point, or use a pH meter to monitor the pH as the titrant is added. The equivalence point is reached when the moles of acid and base are equal, indicating complete neutralization.


How do you detect the equivalence point in acidic medium?

In acidic medium, the equivalence point can be detected using an acid-base indicator that undergoes a color change at the pH corresponding to the equivalence point. Alternatively, a pH meter can be used to monitor the pH of the solution during the titration, with the equivalence point identified as the point of maximum change in pH.


What is the significance of the equivalence point in a titration curve and how can one accurately find the equivalence point during a titration process?

The equivalence point in a titration curve is where the amount of titrant added is stoichiometrically equivalent to the amount of analyte present. This point signifies the completion of the reaction. To accurately find the equivalence point during a titration process, one can use an indicator that changes color at or near the equivalence point, or use a pH meter to monitor the pH changes in the solution. Additionally, one can perform a titration with a known concentration of titrant to determine the equivalence point more precisely.


How can one determine how to find the equivalence point in a titration experiment?

To find the equivalence point in a titration experiment, one can use an indicator that changes color at the pH of the equivalence point. Alternatively, a pH meter can be used to monitor the pH of the solution during the titration. The equivalence point is reached when the amount of titrant added is stoichiometrically equivalent to the amount of analyte present.


Why is the choice of the colorimetric indicator in an acid-base titration important?

The choice of colorimetric indicator in an acid-base titration is crucial because it must change color at the equivalence point, where the moles of acid and base are stoichiometrically equal. The indicator should have a pH range close to the pH at the equivalence point to ensure accurate endpoint detection. Using the right indicator helps to determine the endpoint precisely and enhances the accuracy of the titration results.


What is the difference between the equivalence point and the end point in a titration process?

The equivalence point in a titration is when the amount of titrant added is stoichiometrically equivalent to the amount of analyte present. This is where the reaction is complete. The end point, on the other hand, is when the indicator changes color, signaling the completion of the titration. The end point may not always coincide exactly with the equivalence point.