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Chapter 1
An Introduction to Chemistry
1.1 What Is Chemistry, and What Can Chemistry Do for You?
Special Topic 1.1: Green Chemistry 1.2 Suggestions for Studying Chemistry
1.3 The Scientific Method
1.4 Measurement and Units
The International System of Measurement Special Topic 1.2: Wanted: A New Kilogram SI Units Derived from Standards SI Units Derived from Metric Prefixes More About Length Units More About Volume Units Mass and Weight Temperature
1.5 Reporting Values from Measurements
Accuracy and Precision Describing Measurements Digital Readouts
Chapter Glossary
Internet: Glossary Quiz
Chapter Objectives
Key Ideas Chapter Problems
4 Study Guide for An Introduction to Chemistry
Section Goals and Introductions
Section 1.1 What Is Chemistry, and What Can Chemistry Do for You?
Goal: To explain a bit about what chemistry is and why it’s important. This section shows you some of the questions that an understanding of chemistry helps to answer and some of the issues of concern to chemists. Throughout the text, you will see Special Topics, such as Special Topic 1.1: Green Chemistry , that will reinforce the attitude that chemistry is an important science that expands our understanding of the world around us and helps us to change that world, often in ways that are beneficial to us and to our environment. This section ends with a commercial message: you cannot get the benefits that an understanding of chemistry brings without first concentrating on the basics, which are not always very interesting and which do not always seem directly related to the real world. Trust me. If you master the basics, you will be explaining the way the physical world works to your friends and family in no time.
Section 1.2 Suggestions for Studying Chemistry
Goals To suggest some study strategies. To introduce you to some of the unique components of the text. It’s very important that you understand from the beginning of the course that learning chemistry is a time-consuming task that is best approached in a logical and efficient way. So one goal of this section is to make some suggestions to you about how you might study most efficiently. Another goal is to be sure that you know the tools that you have available to help you. Be sure you know where to find and how to use each of the following: Review Skills, Examples, Exercises, Internet tools, Glossary, Objectives, and End-of-Chapter Problems. http://www.preparatorychemistry/ I want to stress the importance of one of these somewhat unique components, the Objectives. An attempt has been made to write an objective for every skill that you should learn from the text. If you can meet the objectives, you will ace the exams. Be sure to ask your instructor about changes to the list. It’s difficult to use someone else’s objectives, so your instructor is likely to add objectives and eliminate some of those found in the text.
Section 1.3 The Scientific Method
Goal: To give you an idea of how science is done. This section describes one way that science is done and shows how this method was applied in the development of an understanding of Parkinson’s disease and in the development of treatments for it.
Section 1.4 Measurement and Units
Goal: To introduce units of measurement. In this section, you will learn that a value contains a number and a unit , and you will learn a lot about the units used in the International System of Measurement (SI). When you are done
6 Study Guide for An Introduction to Chemistry
Memorize the following. (Be sure to check with your instructor to determine how much you are expected to know of the following.) SI base units (Table 1.1) The table below contains the four base units that you should know now. Type of Measurement Base Unit Abbreviation Length meter m mass kilogram kg time second s temperature kelvin K
Metric prefixes (Table 1.2) The table below contains the most common of these prefixes.
Prefixes for large units Prefixes for small units Prefix Abbreviation Value Prefix Abbreviation Value giga G 1,000,000,000 or 10 9 centi c 0.01 or 10 – mega M 1,000,000or 10^6 milli m 0.001 or 10 – kilo k 1000 or 10 3 micro (^) 0.000001 or 10–
To get a review of the most important topics in the chapter, fill in the blanks in the Key Ideas section. Work all of the selected problems at the end of the chapter, and check your answers with the solutions provided in this chapter of the study guide. Ask for help if you need it.
Web Resources
The Web resources that are available for this course require that you have the tools listed below. As of this writing, the following links will take you to Web sites where you can download the latest browsers and the Shockwave plug-in.
MS Explorer Browser: www.microsoft.com/windows/ie/download/windows.htm Shockwave: sdc.shockwave.com/shockwave/download/
There’s a glossary quiz in Chapter 1 of our Web site that provides the definitions for each of the glossary terms and asks you to type in the term.
Internet: Glossary Quiz
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Exercises Key
Exercise 1.1 - Units Derived from Metric Prefixes: Complete the following relationships. Rewrite the relationships using abbreviations for the units. (Obj 7)
a. 1 megagram = 106 gram b. 1 milliliter = 10 –^3 liter
Exercise 1.2 – Uncertainty: If you are given the following values that are derived from measurements, what will you assume is the range of possible values that each represents? (Obj 19)
a. 72 mL 71 mL to 73 mL b. 8.23 m 8.22 m to 8.24 m c. 4.55 10 –5^ g 4.54 10 –5^ g to 4.56 10 –5^ g
Exercise 1.3 - Uncertainty in Measurement: Let’s assume that four members of your class are asked to measure the mass of a dime. The reported values are 2.302 g, 2.294 g, 2.312 g, and 2.296 g. The average of these values is 2.301 g. Considering the values reported and the level of care you expect beginning chemistry students to take with their measurements, how would you report the mass so as to communicate the uncertainty of the measurement? (Obj 18)
2.30 g because the reported values differ by about 0.01.
Key Ideas Answers
- Complete this brief description of common steps in the development of scientific ideas: The process begins with observation and the collection of data. Next, scientists make an initial hypothesis. This leads to a more purposeful collection of information in the form of systematic research or experimentation. The hypothesis is refined on the basis of the new information, and research is designed to test the hypothesis. The results are published so that other scientists might repeat the research and confirm or refute the conclusions. If other scientists confirm the results, the hypothesis becomes accepted in the scientific community. The next step of this scientific method is a search for useful applications of the new ideas. This often leads to another round of hypothesizing and testing in order to refine the applications.
- The meter , which has an abbreviation of m , is the accepted SI base unit for length.
- The second , which has an abbreviation of s, is the accepted SI base unit for time.
- Many properties cannot be described directly with one of the seven SI base units. Rather than create new definitions for new units, we derive units from the units of meter, kilogram, second, kelvin, mole, ampere, and candela.
- An object’s weight on the surface of the earth depends on its mass and on the distance between it and the center of the earth.
- The thermometers that scientists use to measure temperature generally provide readings in degrees Celsius , but scientists usually convert these values into Kelvin values to do calculations.
- One of the conventions that scientists use for reporting measurements is to report all of the certain digits and one estimated (and thus uncertain) digit.
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- Explain the difference between mass and weight. (Obj 11)
Mass is usually defined as a measure of the amount of matter in an object. The weight of an object, on Earth, is a measure of the force of gravitational attraction between the object and Earth. The more mass an object has, the greater the gravitational attraction between it and another object. The farther an object gets from Earth, the less that attraction is, and the lower its weight. Unlike the weight of an object, the mass of an object is independent of location. Mass is described with mass units, such as grams and kilograms. Weight can be described with force units, such as newtons.
- Which is larger, a gram or an ounce?
There are 28.35 grams per ounce, so an ounce is larger.
- Which is larger, a degree Celsius or a degree Fahrenheit?
There are 1.8 degrees Fahrenheit per degree Celsius, so a degree Celsius is larger.
- Which is the smallest increase in temperature: 10 C (such as from 100 C to 110 C), 10 K (such as from 100 K to 110 K), or 10 F (such as from 100 F to 110 F)? (Obj 16) 10 F
Section 1.5 Reporting Values from Measurements
- Given the following values that are derived from measurements, what do you assume is the range of possible values that each represents? (Obj 19)
We assume 1 in the last decimal place reported.
a. 30.5 m (the length of a whale) 30.5 m means 30.5 0.1 m or 30.4 m to 30.6 m. b. 612 g (the mass of a basketball) 612 g means 612 1 g or 611 g to 613 g. c. 1.98 m (Michael Jordan’s height) 1.98 m means 1.98 0.01 m or 1.97 m to 1.99 m. d. 9.1096 10 –28^ g (the mass of an electron) 9.1096 10 –28^ g means (9.1096 0.0001) 10 –28^ g or 9.1095 10 –28^ g to 9.1097 10 –28^ g. e. 1.5 1018 m^3 (the volume of the ocean) 1.5 1018 m 3 means (1.5 0.1) 10 18 m 3 or 1 .4 1018 m 3 to 1.6 1018 m 3.
10 Study Guide for An Introduction to Chemistry
- The accompanying drawings show portions of metric rulers on which the numbers correspond to centimeters. The dark bars represent the ends of objects being measured. (Obj 18)
a. If you were not given any specific instructions for reporting your values, what length would you record for each of these measurements? It’s difficult to estimate the hundredth position accurately. For the object on the left, we might report 7.67 cm, 7.68 cm, or 7.69. The end of the right object seems to be right on the 9 cm mark, so we report 9.00 cm. b. If you were told that the lines on the ruler are drawn accurately to 0.1 cm, how would you report these two lengths? 7.7 cm and 9.0 cm
- At a track meet, three different timers report the times for the winner of a 100-m sprint as 10.51 s, 10.32 s, and 10.43 s. The average is 10.42 s. How would you report the time of the sprinter in a way that reflects the uncertainty of the measurements? (Obj 18) Our uncertainty is in the tenth position, so we report 10.4 s.
- The image below represents the digital display on a typical electronic balance. (Obj 19)
a. If the reading represents the mass of a solid object that you carefully cleaned and dried and then handled without contaminating it, how would you report this mass? 101.4315 g b. Now assume that the reading is for a more casually handled sample of a liquid and its container. Let’s assume not only that you were less careful with your procedure this time but also that the liquid is evaporating rapidly enough for the reading to be continually decreasing. In the amount of time that the container of liquid has been sitting on the pan of the balance, the mass reading has decreased by about 0.001 g. How would you report the mass? Our convention calls for only reporting one uncertain digit in our value. Because we are uncertain about the thousandth position, we might report 101.432 g (or perhaps even 101.43 g)
