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This training presentation provides demonstrations and discussions on defining acids and bases, testing acidity and basicity, and identifying household acids and bases.
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Acids and BasesMini Lesson Vanderbilt Student Volunteers for Science Training Presentation Fall 2017
Important!!! • Please use this resource to reinforce your understanding of the lesson! Make sure you have read and understand the entire lesson prior to picking up the kit! • We recommend that you work through the kit with your team prior to going into the classroom. • This presentation does not contain the entire lesson—only selected experiments that may be difficult to visualize and/or understand.
I. Intro Demo—Defining acids and bases • Learning Goals: • Students will learn that different solutions can be acidic, basic, or neutral. • Students will understand how litmus paper can be used to determine whether a solution is acidic, basic, or neutral. • Have 2 VSVS volunteers hold the 3 clear plastic glasses up so students can see them. • Tell the students that you have three liquids. • Pour the contents of the bottle labeled water into the first glass. • Pour the contents of the bottle labeled Vinegar into the second glass. • Pour the contents of the bottle labeled Ammonia into the third glass. • Have a student describe the three liquids they see. Describe liquids based on visual cues only.
I. Intro Demo—Defining acids and bases (cont.) • Ask students if they have ever heard of litmus paper. If so, what is it used for? • Litmus paper is used to test whether something is acidic or basic. • Test each glass of clear liquid by dipping first the red and then the blue litmus paper into the liquid and noting what changes, if any, occur. (You may want to record the changes on the board for later reference.) • The vinegar should turn the blue litmus paper pink; the water should not change the color of either paper, and the ammonia should turn pink litmus paper blue.
II. Discussion of Acids and Bases • Learning Goals: • Students will learn characteristics of acid and bases. • Note: Select the information that is appropriate for the class you are teaching. Try to keep the information on a level that the students can understand. Feel free to add other appropriate information. Keep this discussion brief. • ACIDS • Weak acids like the natural acids in food give foods a sour, sharp flavor. • Strong acids can burn your skin. • Many acids are corrosive. They eat away metals and other substances. • Some acids can be helpful. The acid in your stomach aids in digestion. • Two acids (sulfuric acid and nitric acid) cause damage in acid rain. • BASES • Bases taste bitter and feel slippery. • Weak bases are used to settle upset stomachs. • Detergents and many cleaning solutions (e.g. bleach) are basic. • Strong bases can burn the skin.
III. Testing Acids and Bases • Learning Goals: • Students can use pH paper as an indicator of pH and be able to read a pH to determine acidity or basicity. • Ask: How can scientists tell which solutions are acidic or basic? • (Based on the first experiment, some students may be able to reason that scientists could use the different color of litmus to tell how acidic or basic a solution is.) • Ask students, “When blue pH paper is used as the indicator, what color do the acid solutions turn it?” (pink) • Ask students, “When pink pH paper is used as the indicator, what color do the base solutions turn it? (blue)
There are many indicators that can be used to show different pH’s. Tell students to look at the handout. Point out a few examples of how different indicators can be useful at different pH’s. For example: Litmus can tell us if something is either a base or an acid Methyl orange indicator changes color at ph3/4 . It is red below pH 4 and yellow above pH 4. Universal indicator has a large number of color changes at different pH’s and can more precisely tell us what the pH of a solution is.
III. Testing Acids and Bases (cont.) • Put the Testing Household Items Results chart (see worksheet) on the board. • Organize the class into pairs. Students will conduct the experiments in pairs but will share dropper bottles with 1 other pair. • Distribute the following materials to each group (4 students): • 2 well trays (1 per pair) , 4 observation sheets and 4 Results sheets (1 per student). • 1 bag containing dropper bottles of household substances (1 per group of 4) • 2 containers of pHydrion paper (at least 15 of each)
III. Testing Acids and Bases (cont.) • Tell the students to: • Arrange the bottles of household chemicals in numerical order • Place their well-plate on the instruction sheet on top of the diagram, so that they can see the numbers through the bottom of each well.
III. Testing Acids and Bases(cont.) • Squirt a small amount of liquid from the #1 dropper bottle (distilled water) into the first well. • Test its pH by dipping a piece of pHydrion paper into the liquid in the well. The color of the pH paper should immediately be compared to the label on the vial to figure out the correct pH number.
III. Testing Acids and Bases(cont.) • Place the pH paper in the rectangle marked #1 (distilled water). • Report findings • Circle the color change and record the pH number on the Results sheet. • VSVS will complete the chart on the board as each chemical is tested. • VSVS team members need to monitor students for correct results. • Repeat with all the liquids
IV. Neutralization of an Acid with a Base • Learning Goals: • Students will learn that an acid can be neutralized by a base and a base can be neutralized by an acid. • Students will become familiar with universal indicator as a visual method of measuring and monitoring pH level and change. • Ask students if they know what happens when an antacid is taken for an upset stomach • Stomachs contain hydrochloric acid, with a resting pH of 4-5. • This pH drops after eating because HCl and proteases are released to aid in digestion. • pH can get down to 1-2 after a high-protein meal. • Too much acid in stomach = indigestion. Antacids react with stomach acid to neutralize it.
IV. Neutralization of an Acid with a Base (cont.) • Pass out dropper bottles of HCl, NaOH and Universal Indicator liquid. • Tell students to: • 1. Put a squirt of 0.1 M HCl in the first well on the bottom row (D1), add a few drops of universal indicator, and note the color (red). • 2. Do the same for 0.1 M NaOH in D2 (color should be purple). • 3. Do the same in D3 with distilled water. • D1 D2 D3
IV. Neutralization of an Acid with a Base (cont.) • Add a squirt of Universal Indicator to the 2 jars of distilled water. Note the color. • Add 20 drops (counting carefully) of .1M HCl into one of the jars. Note the color. What is the pH? • Add .1M NaOH one drop at a time, counting the drops added, and observing the color change in the universal indicator. Stir with the coffee stirrer when the color starts to change back to neutral. Stop when the universal indicator color is that of neutral pH7. Record the # drops needed to neutralize the acid. • Add 20 drops of .1M NaOH to the other jar and note the color. What is the pH? • Add .1M HCl one drop at a time, counting the drops added, and observing the color change in the universal indicator. Stir with the coffee stirrer when the color starts to change back to neutral. Stop when the universal indicator color is that of neutral pH7. Record the # drops needed to neutralize the base.
Discussion • Ask students: • Are the foods that we have tested acidic or basic? • Mostly acidic. • Are the cleaners that we have tested acidic or basic? • Mostly Basic (cleaners used on your body are sometimes slightly acidic). • Is there any difference in pH of distilled water or rain water? • Rain water usually tests slightly acidic because of dissolved carbon dioxide. However, pollutants from burning fossil fuels such as sulfur oxides and nitrogen oxides can cause the rain water to be more acidic (hence acid rain). • Distilled water should be neutral.