To measure ph s in a variety of solutions and mixtures and to account for the results obtained.

Similar documents
Mixtures of Acids and Bases

To explore solubilities and reactivities of different metal ions. To identify ions present in unknown solutions using separation methods.

Electrochemical Cells

To use calorimetry results to calculate the specific heat of an unknown metal. To determine heat of reaction ( H) from calorimetry measurements.

Reaction Stoichiometry

Measuring Enthalpy Changes

To determine relative oxidizing and reducing strengths of a series of metals and ions.

Introduction. Objectives

#12. Acids and Bases.

Measuring Enthalpy Changes and Gas Laws

Acid - Base Studies. Goals : Safety : HCl, NaOH, HC 2 H 3 O 2 and NH 3 are corrosive. If. Waste : Solutions may be flushed down the sink.

Chem 2115 Experiment #10. Acids, Bases, Salts, and Buffers

Acids and Bases. How does ph affect biological solutions? Introduction. Prelab Preparation Review Section 2.3 on acids and bases in your textbook.

Solubility Product Constants

EXPERIMENT 6. Properties of Buffers INTRODUCTION

11. Introduction to Acids, Bases, ph, and Buffers

O H 3 O 1 1 A. O 1 1 OH (K w

Name Date Class. Chapter 19 Acids, Bases, and Salts EXPERIMENT. ESTIMATION OF ph PURPOSE BACKGROUND MATERIALS (PER PAIR)

INTRODUCTION TO ACIDS, BASES AND TITRATION

EXPERIMENT 11 Acids, Bases, and ph

CHM112 Lab Hydrolysis and Buffers Grading Rubric

Lab: Detecting ph of Commonly Used Acids and Bases

(b) Write the chemical equation for the dissolution of NaOH in water.

Chemistry 1B Experiment 11 49

Part II. Cu(OH)2(s) CuO(s)

Titration with an Acid and a Base

Chemistry Lab Define Acids and Bases

Plant Indicators for Acids and Bases

Redox Reactions. CH102, Lab 11 Goals : Safety : Waste :

To observe trends in solubility and exceptions to these trends. To write chemical formulas based on cation/anion charges.

Aqueous Chemical Reactions

EXPERIMENT. for a Weak Acid. Determination of K a

Experimental Procedure. Lab 406

Determination of the K a of a Weak Acid and the K b of a Weak Base from ph Measurements

Examples of Strong Acids: Strong Acid Formula Common Source Hydrochloric Acid HCl Stomach Acid

Aqueous Chemical Reactions

Aqueous Chemical Reactions

TRATION: ANALYSIS OF VINE

Lab- Properties of Acids and Bases. Name. PSI Chemistry

Acid Base Titration Experiment ACID - BASE TITRATION LAB

MONDAY (12/12) TUESDAY (12/13) WEDNESDAY (12/14) THURSDAY (12/15) FRIDAY (12/16) Making Acid Rain (a lab) Quiz

Experiment 32C APPLICATIONS OF ACID-BASE EQUILIBRIA

Periodicity of Properties of Oxides

Experiment 8 - Chemical Changes

Percentage of Acetic Acid in Vinegar

Experiment #7. Titration of Vinegar

By: Michael Wild, Matt Huber, Jasmine Gilbert and Dr. Faith Yarberry

Chem 2115 Experiment #7. Volumetric Analysis & Consumer Chemistry Standardization of an unknown solution, analysis of vinegar & antacid tablets

Experiment 7 Buffer Capacity & Buffer Preparation

Chemistry CP Lab: Additivity of Heats of Reaction (Hess Law)

Name Period Date. Lab 9: Analysis of Commercial Bleach

Liquid X Lab. Number of Drops Before Spilling Trial 1 Trial 2 Trial 3. Write a conclusion: How do your results for Liquid X compare to water?

6 Acid Base Titration

Lyniece McKim Biology Instructor Star Valley High Afton, WY.

Acid-Base Titration. Sample

Final Concentration 0 excess 0.1 M 0.1 M

Acidity of Beverages Lab

Lab #5 - Limiting Reagent

Introduction to Strong and Weak Acids

Determining the Enthalpy of a Chemical Reaction

Experiment Nine Acids and Bases

Experiment Eight Acids and Bases

DATA SHEETS AND CALCULATIONS FOR ACIDS & BASES

Liquid X Lab. Station 1 The Penny Lab Water is cohesive, adhesive, and has surface tension. Does Liquid X have the same properties?

Acids, Bases, Salts, and Buffers

Introduction to Strong and Weak Acids

CHM111 Lab Titration of Vinegar Grading Rubric

EXPERIMENT 6 Buffer Effects

Ascorbic Acid Titration of Vitamin C Tablets

Experiment 11: Measuring Acidity with Red Cabbage Juice

Determination of the K a Value and Molar Mass of an Unknown Weak Acid

To observe flame test colors produced by ions in solution.

5 Weak Acids, Bases and their Salts

Using Single-Replacement Reactions to Compare Reactivities

Learn to do quantitative titration reactions. Observe the mole ratios of several simple chemical reactions.

Experiment #12. Enthalpy of Neutralization

AP Chemistry Laboratory #18: Buffering in Household Products. Lab days: Wed. and Thurs., March 21-22, 2018 Lab due: Friday, March 23, 2018

Substances and Mixtures:Separating a Mixture into Its Components

Evaluation copy. Acids and Bases. computer OBJECTIVES MATERIALS

Experiment 7: SIMULTANEOUS EQUILIBRIA

Identifying the Science Practices

Qualitative Analysis I - Cations

NaOH (aq) + HCl (aq) NaCl (aq) + H 2 O (l)

EXPERIMENT A7: VINEGAR TITRATION. Learning Outcomes. Introduction. Upon completion of this lab, the student will be able to:

H + [ ] [ ] H + NH 3 NH 4. = poh + log HB +

Electrolysis SCIENCE TOPICS PROCESS SKILLS VOCABULARY

Equilibrium and LeChatelier s Principle

Experiment 8 and 9 Weak Acids and Bases: Exploring the Nature of Buffers

Experiment 5E BOTTLES WITHOUT LABELS: STUDIES OF CHEMICAL REACTIONS

ph Measurement and its Applications

Apply the ideal gas law (PV = nrt) to experimentally determine the number of moles of carbon dioxide gas generated

Determination of an Equilibrium Constant

Acid-Base Titration Acetic Acid Content of Vinegar

CHEMISTRY 130 General Chemistry I. Thermochemistry

Lab 5 Enthalpy of Solution Formation

Experiment 8 - Double Displacement Reactions

Acids and Bases. Two important classification of compounds - Acids and Bases. Properties of BASES

Chemical Reactions: Introduction to Reaction Types

experiment7 Explaining the difference between analyte and standard solutions. Know the definition of equivalence point.

The CCLI Initiative Computers in Chemistry Laboratory Instruction

Transcription:

Acid-Base Studies PURPOSE To measure ph s in a variety of solutions and mixtures and to account for the results obtained. GOALS 1 To learn to use ph paper and a ph meter to measure the ph of a given solution. 2 To become familiar with the ph scale. 3 To observe ph changes produced upon addition of acid or base to a solution. INTRODUCTION Many substances can be classified as acids or bases. There are three definitions used to describe acids and bases, but we consider only the Brønsted definition here. In this theory, an acid is a proton (H + ) donor and acids can usually be recognized because protons that can be transferred are written first in the chemical formula. For example, acetic acid has the formula HC 2 H 3 O 2. Although it contains four protons, only one is acidic. A base is a proton (H + ) acceptor. Protons have positive charge, so their acceptors usually have negative charge, i.e., most anions are bases. NH 3 is the most common base that is not an anion. A Brønsted acid-base reaction is the transfer of a proton from the acid to the base to form their conjugate acid-base pairs. Conjugate acid-base pairs differ by exactly one proton. Thus, the conjugate base of an acid is obtained by removing one H +, so the conjugate base of HF is the F ion. The conjugate acid of a base is obtained by adding one H + to the base, so the conjugate acid of CN is HCN. Brønsted acid-base reactions contain two conjugate acid-base pairs and nothing else. The acidity of a Brønsted acid is a measure of the extent to which the acid reacts with the weak base H 2 O to produce its conjugate base and H 3 O + ions, the conjugate acid of water. The greater the extent of this reaction, the larger the equilibrium constant is for the reaction. This equilibrium constant is defined as the acid dissociation constant or K a of the acid. The larger the K a, the stronger the acid is. The general form of the acid dissociation reaction and K a are shown below in equation 1. HA + H 2 O A + H 3 O + K a = [A ][H 3 O + ] [HA] (1) c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 1

The basicity or alkalinity of a Brønsted base is a measure of the extent to which a Brønsted base reacts with water to produce its conjugate acid and OH ions, the conjugate base of water. The equilibrium constant for the reaction of a base with water is given the symbol K b. The general from for this chemical reaction and K b are shown below in equation 2. A + H 2 O HA + OH K b = [HA][OH ] [A ] (2) The acidity of an aqueous solution is therefore measured by the concentration of H 3 O +, and the basicity by the concentration of OH. Most solutions we deal with are aqueous solutions, and these concentrations are important characteristics. We have seen that water behaves both as an acid (Reaction 1) and a base (Reaction 2), so it should not be surprising that it can react with itself. H 2 O + H 2 O H 3 O + + OH K w = [H 3 O + ][OH ] (3) Hydronium and hydroxide ion concentrations can be very small. For example, the K w = 1.0 x 10 14 at 298K, so in pure water at 298 K, [H 3 O + ] = [OH ] = 1.0 x 10 7 M. Negative exponents are avoided by defining the ph. ph = log[h 3 O + ] (4) The ph of pure water is log(1.0 x 10 7 ) = 7.0. Solutions in which [H 3 O + ] = [OH ] are said to be neutral, so neutral solutions have a ph of 7.0 at 298 K. Solutions in which [H 3 O + ] > [OH ] are acidic and ph < 7. Solutions in which [OH ] > [H 3 O + ] are basic or alkaline and ph > 7. Thus, the acidity or basicity of an aqueous solution can be determined from its ph. Equation 4 can be solved for the hydronium ion concentration to obtain Equation 5. [H 3 O + ] = 10 ph (5) Thus, a ph of 2.2 implies that [H 3 O + ] = 10 ph = 10 2.2 = 0.006 M. The acidity or basicity of a solution can be determined by measuring its ph or with an indicator. ph meters are electrochemical cells whose voltage is ph sensitive. When the electrode from the meter is placed in a solution, a voltage is developed between the meter and the solution. The voltage is converted to a ph that can be read directly. An acid-base indicator is a weak acid whose conjugate base is a different color. When the indicator is placed in an acidic solution, it is converted to the acid form and takes that color, but when it is placed in a basic solution, it is converted to the base and takes on the color of the base. ph paper is a strip of paper with an indicator on it. The color of the indicator changes with ph, so the approximate ph of a solution can be determined by placing a small amount of the solution on the paper. c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 2

In Part A of this lab, you will perform a 3-point calibration on a ph meter. In Part B, you will use ph meters to determine the ph of several acid-base solutions commonly found in a chemistry laboratory to become familiar with the ph scale. In Part C, you will use ph paper to determine whether several common household chemicals are acidic, basic, or neutral. In Part D, you will use a ph meter to follow the ph change of an acidic solution as a basic solution is added to it. EQUIPMENT 1 30 ml beaker 1 10 ml graduated cylinder 1 glass stir rod 7 medium test tubes 1 test tube rack 1 ph electrode in ph 7.00 buffer 1 MicroLab interface 1 MicroLab ph measurement instruction sheet 1 ph paper 1 plastic work surface 1 deionized water squirt bottle REAGENTS 25 ml 0.010 M HCl 10 ml 0.0010 M HCl 10 ml 0.00010 M HCl 10 ml 0.010 M HC 2 H 3 O 2 25 ml 0.010 M NaOH 10 ml 0.0010 M NaOH 10 ml 0.010 M NH 3 15 ml ph 4.00 buffer 15 ml ph 7.00 buffer 15 ml ph 10.00 buffer 2 drops vinegar 2 drops bleach c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 3

2 drops ammonia 2 drops vitamin C 2 drops lemon juice 2 drops baking soda 2 drops dishwasher detergent 2 drops carbonated water 2 drops baking powder SAFETY HCl, NaOH, HC 2 H 3 O 2, and NH 3 are corrosive. They can attack the skin and cause permanent damage to the eyes. If any of these solutions splash into your eyes, use the eyewash immediately. Hold your eyes open and flush with water. If contact with skin or clothing occurs, flush the affected area with water. Have your lab partner notify your instructor about the spill. HCl, HC 2 H 3 O 2, and NH 3 solutions give off highly irritating vapors. Do not inhale them. Work with concentrated solutions under the hood so vapors do not build up in the lab. If you do inhale enough vapor to have a problem, move to fresh air. Have your lab partner notify your instructor about the accident. Acid-base reactions are highly exothermic. They can cause water to boil and splash hot, corrosive solution out of the vessel in which they were mixed. Do not directly combine solutions with concentrations greater than 0.1 M. Use caution when pouring solutions or disposing of them. WASTE DISPOSAL All solutions can be flushed down the sink with plenty of water. When disposing of concentrated solutions, pour them slowly while the water is running. PRIOR TO CLASS Please complete WebAssign prelab assignment. Check your WebAssign Account for due dates. Students who do not complete the WebAssign prelab are required to bring and hand in the prelab worksheet. LAB PROCEDURE Please print the worksheet for this lab. You will need this sheet to record your data. In this experiment, you will be using ph meters. They have electrodes with a thin glass bulb at the tip. They break easily and are costly to replace. Be careful not to shove the electrode into the bottom of a test tube or drop the electrode. There is a protective guard around the tip, which should remain in place at all times. The guard will not protect against careless treatment. Please use extreme care when using this equipment. When the ph electrode is not in use, it should be capped with the ph 7 buffer solution. c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 4

Part A: Calibration of a ph Meter 1 Open the MicroLab program. 2 Make sure the ph electrode is plugged into the interface. 3 Calibrate the ph electrode using the MicroLab instructions provided in the lab. The calibration stands for the ph electrode will be ph = 4.00 (red), ph = 7.00 (yellow), and ph = 10.00 (blue) buffer solutions. Use about 15 ml of each in 30 ml beakers. 4 After the calibration is complete, configure the MicroLab program to collect data as described in the instructions provided in the lab. Part B: ph Measurements of Some Common Acid and Base Solutions 1 Number seven test tubes 1 7. 2 Fill each test tube 1/4 1/2 full with solutions 1 7 listed in Data Table A. 3 Use a ph meter to measure the ph of each solution and record them in Data Table A. Rinse the ph meter thoroughly with deionized water between each measurement. 4 Discard the solutions and rinse each of the test tubes. Part C: Acidity and Basicity of Some Household Chemicals 1 Place ten small strips of ph paper on the plastic work surface provided. 2 Put one or two drops of each of the solutions listed in Data Table B on a separate piece of paper. Because ammonia vapors will react with the ph paper, add ammonia (NH 3 ) last! The bleach will oxidize the ph paper quickly; be sure to observe the initial color change of the ph paper. 3 Observe and record your results in Data Table B. Part D: Acid-Base Reactions 1 Measure 10.0 ml of 0.010 M HCl in a 10 ml graduated cylinder and place in a clean 30 ml beaker. 2 Use a ph meter to measure the ph. Record this value in Data Table C as 0.0 ml NaOH. 3 Rinse the graduated cylinder used in step 1 thoroughly and dry. 4 Measure 3.0 ml of 0.010 M NaOH and add it carefully to the HCl solution in the beaker and stir. Record the ph of the new solution in Data Table C as 3.0 ml NaOH. 5 Add an additional 3.0 ml of 0.010 M NaOH to the beaker, stir, and record the ph in Data Table C as 6.0 ml NaOH. The total volume in the beaker should now be 16 ml. 6 Add a final 6.0 ml of 0.010 M NaOH to the beaker and record the ph in Data Table C as 12.0 ml NaOH. The total volume should now be 22 ml. 7 Turn off the ph probe. c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 5

8 Discard the solution, wash and dry all your glassware and return it to the set-up area where you found it. 9 Before leaving, go to a computer in the laboratory and enter your results in the In-Lab assignment. If all results are scored as correct, log out. If not all results are correct, try to find the error or consult with your lab instructor. When all results are correct, note them and log out of WebAssign. The In-Lab assignment must be completed by the end of the lab period. If additional time is required, please consult with your lab instructor. c 2013-2014 Advanced Instructional Systems, Inc. and North Carolina State University 6

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback