Chemicals have their distinct nature – they can be neutral or acidic or basic. These characteristics primarily depend on how many H+ or OH– ions a particular chemical is releasing in its aqueous solution.
For example, chemicals that release H+ ions are acidic, whereas those which release OH- ions are basic.
These experiments are an integral part of Class 10 practical chemistry syllabus. Hence, to know about the pH of samples and how to determine that, keep on reading this article!
Introduction
pH, a measure of acidity or authenticity of aqueous or other liquid solutions. pH is one of the most common terms in the field of chemistry, biology, and agronomy, converting the value of hydrogen ions — typically between 1 and 10-14 (1 g) per liter — into numbers between 0 and 14. In clean water. , neutral hydrogen ion concentration is 10-7 gram-equivalents per liter, Solution with a pH of less than 7 is considered acidic; a solution with a pH greater than 7 is considered basic, or alkaline.
The measure was originally used by Danish biochemist S.P.L. Sørensen represents a mixture of hydrogen ions, expressed in proportion to each liter of liquid solution: pH = −log (H +)
Definition of pH
The International Union of Pure and Applied Chemistry (IUPAC) has a slightly different pH scale based on electrochemical estimates of standard bath solution. Basically, the description uses a number:
pH = -log aH +
where aH + represents hydrogen activity, which is the active combination of hydrogen ions in solution. This may be slightly different from the actual focus. IUPAC pH measurement includes thermodynamic factors, which can affect pH.
In most cases, a standard definition of pH is sufficient.
PH scale
The pH range is from 0 to 14. The pH of a solution is a measure of its acidity or alkalinity (base). You have probably used litmus paper, a paper that has been treated with a natural water-soluble dye to be used as an indicator of pH, to check how much acid or base (alkalinity) is present in the solution. You may have used some to ensure that the water in the outdoor pool is handled properly.
PH measurement
The pH of a solution can be determined using a tool such as a pH meter or various indicators that change their color accordingly depending on the type of test solution.
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PH Meter: A measuring device called a pH meter can give pH up to two decimal places.
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PH meters are measured using bath solutions with pH known accuracy.
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Measure pH more accurately than indicators.
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Now the pH days are used to measure the pH.
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Indicators: It is a substance that can be used to identify the nature of a chemical due to its color change.
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The indicator changes color when the pH of the solution changes slightly.
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If you use clues, it is best not to color the solution to be tested. If the solution is coloured, it can affect the color of the indicators.
The universal index or pH paper provides a relative pH value.
Test
Hydrochloric acid (HCl):
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Hydrochloric acid occurs as an aqueous solution or as a gas of hydrogen chloride (anhydrous hydrochloric acid).
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Hydrogen chloride gas is a colorless, non-combustible, edible gas with an offensive odor.
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When added to water it dissolves completely to form H+ ions and Cl– ions.
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Its pH is < 7.
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Used in composting, textile and rubber industries.
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Color Produced in the Universal Index by Dilute Hcl.
Sodium hydroxide (NaOH):
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It is often called caustic soda and is a solid base, naturally decomposing.
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When soaked in water it separates completely to form Na+ and OH– ions.
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Its pH is > 7.
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Used to make soaps and detergents.
Theory:
Definition of pH
pH is defined as the negative logarithm (base 10) of hydrogen ion concentration. It is the most common way to determine the strength of base/acid. Often it is termed as “potential of hydrogen ion”. It is the molarity of H+ ion.
Following is the pH value of different chemicals on a scale from 0 to 14.
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Acid pH<7
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a pH of Base>7
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pH of neutral =7.
pH Scale
A pH scale is used to determine the nature of a substance. Its value ranges from 0 to 14. This scale is logarithmic. It means that if an integer value increases or decreases, the concentration changes tenfold, accordingly.
For example, pH 2 is ten times more acidic than pH 3. Furthermore, pH 12 is 100 times more basic than pH 10.
pH Paper
A pH paper is a piece of paper used to find out if a solution is basic, acidic or neutral. This is determined by dipping part of the paper into a solution and observing the color change.
A pH paper changes color in different solutions due to the chemical flavin. This molecule, which is an anthocyanin, is soluble in water and changes color in the presence of various types of solutions.
The packaging a pH paper comes in often includes a color-coded scale indicating the pH. This works in the following ways –
Solution Type |
Color |
Acidic |
Red |
Basic |
Greenish-blue |
Neutral |
Light green |
Universal Indicator
It is a mixture of several indicators and demonstrates a range of colors based on the pH of any particular solution. It is generally available in two forms, liquid solution of ethanol and pH paper, soaked in indicator solution.
pH Value Chart
Aim:
To find the pH of the following samples using A) pH paper or B) Universal Indicator. The samples are –
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Dilute HCl
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Dilute Solution of NaOH
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Salt NaCl
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Dilute solution of Acetic(ethanoic) acid (CH3COOH)
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Lemon juice
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Water
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Dilute solution of sodium bicarbonate (NaHCO3)
Materials Required
For salt, make a solution by dissolving 1 gm salt into 10 mL distilled water.
Procedure
Using a pH paper,
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Take clean and dry 7 test tubes.
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Label the test tubes as A, B, C, D, E, F, G, and place them in order in a test tube stand.
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Take 10 mL of each given sample in the test tubes.
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Place a small portion of pH paper (about 2 cm) on a white glazed tile.
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With the help of a glass rod or dropper, transfer 1 to 2 drops of dil. HCl from test tube A on the pH paper.
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Compare it with the colors in the chart given above.
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Note the pH given against the color which tallies with developed color on pH paper.
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Repeat the same procedure for other samples as well and note their pH in the observation table.
Observation
Sample |
pH Paper Color |
A |
Red |
B |
Purple |
C |
Red |
D |
Yellow |
E |
Orange |
F |
Green |
G |
Blue |
Result and Conclusion
Samples |
Solution |
pH Paper Color |
pH |
Nature |
A |
Dilute HCl |
Red |
1 |
Strong acid |
B |
Solution of dil NaOH |
Purple |
14 |
Strong base |
C |
Solution of NaCl |
Red |
1 |
Strong acid |
D |
Dilute CH3COOH |
Orange |
3 |
Weak acid |
E |
Lemon juice |
Orange |
2 |
Weak acid |
F |
Water |
Green |
7 |
Neutral |
G |
Dilute NaHCO3 |
Light Blue |
9 |
Weak base |
Using Universal Indicator,
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Take clean and dry 7 test tubes.
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Label the test tubes as A, B, C, D, E, F, G, and place them in order in a test tube stand.
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Take 10 mL of each given sample in the test tubes.
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Then add two drops of BDH (British Drug House) Universal indicator in each test tube.
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Match the changed color of the solution with the pH color chart and note the pH on the observation table.
You will see that the observation table is looking the same as above. It indicates that you can use any of these two methods to determine the pH of any sample.
Inference:
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Acid samples have a pH of less than 7. For example, the pH value of lemon juice.
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Basic samples have a pH of more than 7. For example, pH of sodium bicarbonate solution.
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Neutral samples have pH equals to 7. For example, the pH of water samples.
The pH of soil determines if the soil is acidic or neutral or basic or alkaline. Generally, the soil has a pH range of 3 to 9. Below mentioned table shows the different pH values of different soil samples.
Soil pH
<5 |
5.5 |
6 |
6.5-7.5 |
7.5-8.5 |
>8.5 |
Strongly acidic |
Moderately acidic |
Slightly acidic |
Neutral Appropriate for most crops. |
Moderately alkaline |
Strongly alkaline |
Determination of ph of Soil Samples Helps with Following Factors.
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Soil pH determination helps in under
standing the physical condition, nutrient availability, permeability, etc. -
It can determine the potency of toxic elements of soil.
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It provides an insight into the presence of microbial communities and its influence in the growth of the crops.
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Based on this analysis, we can segregate the soil suited best for a specific crop.
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It also ascertains the charge discharging into the soil that affects the nutrient of soils.
Along with that, Following Table also Shows the pH of Different Water Samples.
Water Type |
pH |
Reverse osmosis distilled water |
5-7 |
Tap water |
About 7.5 |
Common packaged bottle |
6.5-7.5 |
Water bottles mentioning alkaline |
8.9 |
Ocean water |
About 8 |
Acid rain |
5-5.5 |
Precautions
A few precautions should be taken while determining the pH of samples. Otherwise, the result can be erroneous. Following are the tips –
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Always use the freshly prepared sample solutions; even the fruit juice sample has to be fresh.
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Use a rinsed and clean dropper.
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Mark each test tube carefully.
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Rinse the droppers and test tubes only with distilled water.
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Clean tile needs to be used.
Impact of pH
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The pH solution of a chemical depends on the temperature. The pH varies as the temperature changes.
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The water pH is 7 at 25⁰C.
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When water is heated, its pH becomes less than 7, but the water remains neutral. It happens because, at high temperature, water breaks down and produces more ions. Consequently, exactly the opposite happens when
Rack Your Brains
1. Who Discovered the pH Scale?
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S.P.L Sorenson
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Henry Moseley
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Benjamin Franklin
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Wilhelm Rontgen
2. What is the pH of Saliva after a Meal?
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4.8
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5.8
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6.8
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Less than 4
Answers: 1-A, 2-B.
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