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What Products Does One Get When Mixing an Acid & With a Base?

by Amanda Hoff, Demand Media

    A chemical reaction by definition forms new chemicals (called the products) from the initial chemicals (called the reactants). It should make sense that the identity of the products formed depends on what reactants we start with. Adding an acid to a base is an example of a chemical reaction, so we should expect to see new products. Although there is a pattern to this type of reaction, ultimately the products formed depend on what acid and what base are used.

    Isn't this an Easy Answer?

    At first glance, this question has a simple answer. Most introductory chemistry books will teach that the reaction between an acid and a base is called neutralization, and the products formed are water and a salt. For example, if you mix hydrochloric acid (HCl) with sodium hydroxide (NaOH), the products formed are water (H20) and sodium chloride(NaCl), which is well-known as table salt. HCl + NaOH --> H2O + NaCl The problem is that it isn't really that simple. To completely answer this question, we will have to be a lot more specific.

    A Starting Point

    Let's start by mixing a strong acid with a strong base. Adding the word "strong" means that these acids and bases completely dissociate (or break apart) when put into water. Using a strong acid in an experiment means the acid is already dissolved in water (and this is most likely true for the base, too). If you then add the acid to the base, the products will be water (in addition to the water already there) and a salt (which is not necessarily "table salt"). For example, mix the strong acid HNO3 (nitric acid) with the strong base KOH (potassium hydroxide). HNO3 + KOH --> H2O + KNO3 In this example, KNO3 is the salt, so water and a salt are formed as expected. You also have to remember that this reaction is taking place in water, so most likely the salt is not bonded together, but instead is separated as ions in the water.

    The Complete Ionic Equation

    Actually, chemists will write what is called a complete ionic equation to show which chemicals are dissociated: H+ (aq) + NO3- (aq) + K+ (aq) + OH- (aq) --> H2O (l) + K+ (aq) + NO3- (aq) This long equation tells us that the strong acid and strong base are actually dissociated in the water ("aq" stands for aqueous), and water is formed, leaving potassium (K+) and nitrate (NO3-) ions still in the water.

    The Net Ionic Equation

    This leads to another interesting question: How is a salt formed? Well, actually in this case, it isn't. The ions that would form the salt are there, but in the present form they actually haven't formed the salt. So, chemists will write what is called the net ionic equation to show what really happened: H+ (aq) + OH- (aq) --> H2O (l) This tells us that the only true reaction is this example is the formation of water. The ions K+ and NO3- haven't done anything, so they are left out of the net ionic equation.

    Complicating Neutralization with Stoichiometry

    What if you wanted to end up with the products only (salt and water) and wanted to be sure that all of the acid and base were gone? This becomes what is called a stoichiometric problem. It should make sense that if you don't add enough base, you would still have some acid left over. The acid is not a product, but it is mixed in with the products. Likewise, if you did not add enough acid, you would have a base left over, which again would be mixed with the products. Mathematically, you can calculate just how much acid you should mix with a certain amount of base if you want what we call complete neutralization.

    Weak Acids, Weak Bases and Gas Formation

    Here is another complication: What if the acid or base (or both) isn't "strong"? There are many weak acids and bases, which means that they dissociate very little when mixed in water. Simply stated, neutralization still takes place (forming water and a salt), but if we go beyond that simple statement, we find that the complete ionic and net ionic equations are very different from a strong acid/strong base reaction. There's one more complication: What if we mix the acid with something like NaHCO3? Well, we all know the reaction that takes place when you mix baking soda (NaHCO3) with acidic vinegar. A gas is formed, right? Neutralization takes place, but the products are no longer only water and a salt. Look at hydrochloric acid and baking soda, for example: HCl + NaHCO3 -> NaCl + H2O + CO2 The products are not only a salt (NaCl) and water (H2O), but also a gas (CO2).


    Answering the question "What products does one get when mixing an acid with a base?" cannot be done simply. What you end up with depends on which acid and base are used and on how much acid and base you use. What is provided here is just a start to what could take an entire chapter in a chemistry textbook to answer completely.

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    About the Author

    Amanda Hoff is a senior at Missouri State University in Springfield, Mo., where she is majoring in broadcast journalism. A writer since the age of 13, her work has been featured in several publications, and she has won more than 20 awards for stories she has written for them.

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