pH measurement with indicator paper is not very accurate. Comment.
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Accuracy of pH paper. The use of pH paper is similar to the use of a Galileo thermometer. Particular colors indicate certain values, and each measurement is only accurate within a unit or two. While pH paper is great for quick qualitative work, it fails at highly accurate quantitative work.
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here is the answer for your question
pH indicators
Liquid acid-base indicators are weak organic acids or bases that present as different colors in their acid and base forms. An indicator has a specific pH range over which it changes from its acid form to its base form. An indicator is not useful outside its pH range because the indicator does not change color over these pH values.
Some of the most widely-used pH testing tools are pH indicators, including phenolphthalein(range pH 8.2 to 10.0; colorless to pink), bromthymol blue (range pH 6.0 to 7.6; yellow to blue), and litmus (range pH 4.5 to 8.3; red to blue).
Universal indicators are mixtures of several different pH indicators that extend the pH range over which they operate. Bogen universal indicator is a mixture of methyl red, bromthymol blue, and phenolphthalein, and indicates on a wide pH range of 4.0 to 10.0 in discrete color steps.
Liquid indicators are especially useful in acid-base titrations, where a noticeable pH change occurs near the equivalence point. Select a pH indicator whose pH range falls within the pH change of the reaction. pH indicators are also commonly used to perform quick checks on the pH of water samples (aquaria, pools, drinking water). This method of measuring pH is quick, inexpensive, and easy.
There are drawbacks to using pH indicators. The test sample should be fairly colorless to clearly see the indicator's color change. Also, the indicators inherently measure pH at a low accuracy.
Option 2: pH test papers
Litmus paper is probably the most familiar pH paper. It is used to broadly test whether a solution is acidic or basic and comes in 3 types—red, blue, and neutral. Red litmus turns blue in basic solutions, blue litmus turns red in acidic solution, and neutral litmus (usually purple) turns red in acidic solutions and blue in basic solutions. To find the specific pH of a sample, you will need a pH test paper or strip that is more precise than a litmus strip.
More precise pH test papers or strips can give test results down to 0.2 pH units. There is a large selection of pH test papers and strips available, from wide pH range, low sensitivity to narrow pH range, high sensitivity.
There are many benefits to using pH strips and papers. Like indicator solutions, they are quick and easy to use, and compared to pH meters, they are much less expensive. pH papers are portable, easy to store, and well suited for field work. In classrooms, pH strips can be pasted into a lab notebook to retain experimental results.
While pH strips and papers give more accuracy and precision than liquid indicators, they are still inferior to pH meters. Solution color and turbidity are also concerns when using pH strips and papers—colorless solutions give the best results.
Option 3: pH meters
The most precise of the 3 test options, pH meters measure a solution's pH by measuring the electrical potential difference between the pH electrode and a reference electrode. The meter then coverts this potential to a pH reading. They offer readings to 0.01 pH unit, and are useful for advanced science, college, or research work that requires this level of precision.
Handheld, portable pH meters are great for field work or quick pH checks in a lab. Bench pH meters are typically more precise and offer more testing options.
pH meters require calibration and more upkeep than other pH testing equipment. It is imperative that the meter electrodes are kept clean and maintained or replaced according to the manufacturer's instructions.
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pH indicators
Liquid acid-base indicators are weak organic acids or bases that present as different colors in their acid and base forms. An indicator has a specific pH range over which it changes from its acid form to its base form. An indicator is not useful outside its pH range because the indicator does not change color over these pH values.
Some of the most widely-used pH testing tools are pH indicators, including phenolphthalein(range pH 8.2 to 10.0; colorless to pink), bromthymol blue (range pH 6.0 to 7.6; yellow to blue), and litmus (range pH 4.5 to 8.3; red to blue).
Universal indicators are mixtures of several different pH indicators that extend the pH range over which they operate. Bogen universal indicator is a mixture of methyl red, bromthymol blue, and phenolphthalein, and indicates on a wide pH range of 4.0 to 10.0 in discrete color steps.
Liquid indicators are especially useful in acid-base titrations, where a noticeable pH change occurs near the equivalence point. Select a pH indicator whose pH range falls within the pH change of the reaction. pH indicators are also commonly used to perform quick checks on the pH of water samples (aquaria, pools, drinking water). This method of measuring pH is quick, inexpensive, and easy.
There are drawbacks to using pH indicators. The test sample should be fairly colorless to clearly see the indicator's color change. Also, the indicators inherently measure pH at a low accuracy.
Option 2: pH test papers
Litmus paper is probably the most familiar pH paper. It is used to broadly test whether a solution is acidic or basic and comes in 3 types—red, blue, and neutral. Red litmus turns blue in basic solutions, blue litmus turns red in acidic solution, and neutral litmus (usually purple) turns red in acidic solutions and blue in basic solutions. To find the specific pH of a sample, you will need a pH test paper or strip that is more precise than a litmus strip.
More precise pH test papers or strips can give test results down to 0.2 pH units. There is a large selection of pH test papers and strips available, from wide pH range, low sensitivity to narrow pH range, high sensitivity.
There are many benefits to using pH strips and papers. Like indicator solutions, they are quick and easy to use, and compared to pH meters, they are much less expensive. pH papers are portable, easy to store, and well suited for field work. In classrooms, pH strips can be pasted into a lab notebook to retain experimental results.
While pH strips and papers give more accuracy and precision than liquid indicators, they are still inferior to pH meters. Solution color and turbidity are also concerns when using pH strips and papers—colorless solutions give the best results.
Option 3: pH meters
The most precise of the 3 test options, pH meters measure a solution's pH by measuring the electrical potential difference between the pH electrode and a reference electrode. The meter then coverts this potential to a pH reading. They offer readings to 0.01 pH unit, and are useful for advanced science, college, or research work that requires this level of precision.
Handheld, portable pH meters are great for field work or quick pH checks in a lab. Bench pH meters are typically more precise and offer more testing options.
pH meters require calibration and more upkeep than other pH testing equipment. It is imperative that the meter electrodes are kept clean and maintained or replaced according to the manufacturer's instructions.
thank you
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