How to Distinguish Between Acids and Bases

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In chemistry, the easiest way to distinguish acids and bases is to look at the substance's pH level—acids have a pH of less than 7 while bases have a pH greater than 7. [1] But what if you don't happen to have any litmus paper handy? Turns out there are plenty of ways to distinguish between acids and bases that don't require testing the substance. You just have to evaluate its basic properties. Read on to find out how you can easily distinguish between acids and bases—no lab equipment necessary.

Section 1 of 4:

What are acids and bases?

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    Pure water is a neutral substance with a pH of 7. Any substance with a lower pH is an acid—the lower the pH, the stronger the acid. In chemistry, 3 theories further define acids: [2]
    • Arrhenius theory : Acids are any substances that increase the concentration of hydronium ions (H 3 O + ) in solution.
    • Brønsted-Lowry theory : Acids are any substances that can act as proton donors.
    • Lewis theory : Acids are any substances that can accept a pair of electrons.
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    Any substance that has a pH higher than 7 is a base. The higher the pH, the stronger the base. The same 3 theories that define acids also define bases: [3]
    • Arrhenius theory : Bases are any substances that donate hydroxide ions (OH - ) in solution.
    • Brønsted-Lowry theory : Bases are any substances capable of accepting a proton.
    • Lewis theory : Bases are any substances capable of donating a pair of electrons.
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Section 2 of 4:

Examples of common acids and bases

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    Acids show up frequently in your body and in the foods you eat. Your stomach uses acid to break down and digest food so your body can use the nutrients in it. Other acids are electrolytes, essential for your body to function. [4]
    • You've probably been encouraged to take vitamin C if you have a cold. Vitamin C is the common name for ascorbic acid, which is found in citrus fruits.
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    Bases aren't as common in your daily life as acids are, but they are often used in cleaning. Soaps are bases, as well as cleaning products that contain bleach or ammonia.
    • Toothpaste is also a base. [5] This is why it tastes so weird to drink orange juice (which contains high levels of citric acid ) after you've just brushed your teeth.
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Section 3 of 4:

Differences Between Acids and Bases

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    Acids have the following characteristics:
    • They're sticky
    • They taste sour
    • They have a sickly sweet smell, like soured milk [6]
    • They have a pH of less than 7.0
    • They produce hydrogen gas and salt in reaction to metal [7]
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    Bases have the following characteristics:
    • They're slippery
    • They taste bitter
    • They have a pH higher than 7.0
    • They're odorless and capable of neutralizing odors [8]
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Section 4 of 4:

Difference in Name

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    Acids are pretty easy to identify this way, because they're almost always directly called acids—think citric acid, amino acid, or folic acid. Some acids do have more common names that leave off the word, though, so you might have to research the substance to find its scientific name.
    • For example, while you've likely heard of vinegar before, you might not know that it's technically acetic acid . So there's the word acid right in the name, although it's not the name most commonly used for the substance.
    • If you're looking at a chemical formula, acids typically start with H.
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    This can get tricky because most bases are commonly known by a different name. But if you can track down the scientific name for the substance, it will typically include the word "hydroxide" in it if it's a base. Carbonates, such as sodium bicarbonate (baking soda) are also bases.
    • For example, ammonia is also known as ammonium hydroxide. The "hydroxide" part of the name tells you it's a base.
    • You can also look at the chemical formula of the substance. If it's a base, it typically ends with hydroxide (OH - ).
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  • Question
    What is the major difference between acid and base?
    Chris Hasegawa, PhD
    Retired Science Professor & Dean
    Dr. Chris Hasegawa was a Science Professor and the Dean at California State University Monterey Bay. Dr. Hasegawa specializes in teaching complex scientific concepts to students. He holds a BS in Biochemistry, a Master’s in Education, and his teaching credential from The University of California, Davis. He earned his PhD in Curriculum and Instruction from The University of Oregon. Before becoming a professor, Dr. Hasegawa conducted biochemical research in Neuropharmacology at the National Institute of Health. He also taught physical and life sciences and served as a teacher and administrator at public schools in California, Oregon, and Arizona.
    Chris Hasegawa, PhD
    Retired Science Professor & Dean
    Expert Answer
    Ultimately, you'll notice notice a difference in the number of ions between acidic and basic solutions.
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  • Question
    How do you introduce the topic of acids and bases?
    Chris Hasegawa, PhD
    Retired Science Professor & Dean
    Dr. Chris Hasegawa was a Science Professor and the Dean at California State University Monterey Bay. Dr. Hasegawa specializes in teaching complex scientific concepts to students. He holds a BS in Biochemistry, a Master’s in Education, and his teaching credential from The University of California, Davis. He earned his PhD in Curriculum and Instruction from The University of Oregon. Before becoming a professor, Dr. Hasegawa conducted biochemical research in Neuropharmacology at the National Institute of Health. He also taught physical and life sciences and served as a teacher and administrator at public schools in California, Oregon, and Arizona.
    Chris Hasegawa, PhD
    Retired Science Professor & Dean
    Expert Answer
    Approach the topic hands-on! For instance, you could teach your students how to dilute both acidic and basic solutions.
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  • Question
    What color will methyl orange be when it comes into contact with an acid or base?
    Han
    Community Answer
    Methyl orange will turn red below a pH of 3.1, orange between 3.1 and 4.4, and yellow above 4.4.
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      Warnings

      • Strong acids and strong bases are both harmful and corrosive. Always protect your skin and eyes when experimenting with acids and bases. [9]
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      References

      1. https://flexbooks.ck12.org/cbook/ck-12-biology-flexbook-2.0/section/1.20/primary/lesson/acids-and-bases-in-biology-bio/
      2. https://courses.lumenlearning.com/boundless-chemistry/chapter/acids-and-bases/
      3. https://courses.lumenlearning.com/boundless-chemistry/chapter/acids-and-bases/
      4. https://courses.lumenlearning.com/cheminter/chapter/properties-of-acids-and-bases/
      5. https://chem.libretexts.org/Bookshelves/General_Chemistry/Map%3A_Principles_of_Modern_Chemistry_(Oxtoby_et_al.)/Unit_4%3A_Equilibrium_in_Chemical_Reactions/15%3A_AcidBase_Equilibria/15.1%3A_Classifications_of_Acids_and_Bases
      6. https://chemed.chem.purdue.edu/genchem/topicreview/bp/ch11/acidbase.php
      7. https://flexbooks.ck12.org/cbook/cbse-chemistry-class-10/section/2.4/primary/lesson/chemical-properties-of-acids-and-bases/
      8. https://www.mcgill.ca/oss/article/general-science-you-asked/can-baking-soda-really-absorb-odors-fridge
      9. https://flexbooks.ck12.org/cbook/ck-12-biology-flexbook-2.0/section/1.20/primary/lesson/acids-and-bases-in-biology-bio/

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