Chapter 1

1. Chapter 1 Chemistry: Matter and Measurement

2. Chemistry • Are you a gambler? • Chemistry – The Central Science • Chemistry is the study of matter, its properties, and its transformations

3. Matter • Matter – any substance that has a mass and volume (takes up space) • 3 States of matter • Solid • Liquid • Gas

4. Matter

5. Matter • Element – the fundamental unit of all substances • Found on the Periodic table • Unique name and symbol • First letter of symbol is capitalized, the second is always lower case • Review the Periodic Table powerpoint for more information about the periodic table

6. Matter • Compounds • Formed when elements combine in a specific ratio • Chemical Formula - A notation for a chemical compound using symbols and subscripts to show the exact ratio of atoms of each element that are present.

7. Matter • Mixture • The combination of more than one pure substance • Homogenous • Heterogeneous

8. Example Problem • Which of the following is not an example of an element? • A. Ni • B. O2 • C. CO • D. S8 • E. Co

9. Example Problem • The chemical formula CoSO4 indicates the compound contains: • A. 1 carbon, 1 sulfur, 5 oxygens • B. 1 carbon, 1 sulfur, 4 oxygens • C. 1 cobalt, 1 sulfur, 4 oxygens • D. 1 copper, 1 sulfur, 4 oxygens • E. 1 cobalt, 1 sulfur, 5 oxygens

10. Example Problem • Which of the following is not a mixture. • Pure blood • Bread • Toothpaste • Aluminum foil • Motor oil

11. Identification of Matter • Matter is identified according to • Physical and chemical properties

12. Identification of Matter • Physical properties – those that can be described without altering chemical composition • Chemical properties – indicate how a chemical reacts under a set of conditions

13. Identification of Matter CHEMICAL PHYSICAL Description by senses – shape, color, odor, soluble, miscible, etc. Measurable properties – density, boiling point, acidity, etc. -Burns -Oxidizes -Decomposition

14. Example Problem • Which of the following is a physical property of aspirin? A) Aspirin can moderate some heart disorders when ingested. B) Aspirin does not decompose when tightly sealed in a bottle. C) Aspirin yields carbon dioxide and water vapor when burned. D) Aspirin can be pressed into tablets when mixed with cornstarch. E) Aspirin reacts with water to produce salicylic acid and acetic acid.

15. Questions to be Answered • What does a measurement involve? • How do you make measurements properly? • How do we convert between measurements of one unit to measurements of a new unit?

16. Physical Quantities • Physical quantities – measured physical properties • Number • Unit

17. Proper Measurements • Number • Reflect the certainty to which the measurement was made • Unit • Represent the type of measurement made • Mass • Volume • Length

18. Measurement and Significant Figures • Number • Certain digits - all digits that can be stated as fact • Read from smallest digit • One Uncertain digit – the first digit that is estimated • No additional digits should be recorded • Ruler practice • Uncertainty always exist in the last digit of a number • Balance example

19. Measurement and Significant Figures • The total number of digits used to express such a measurement is the number of significant figures.

20. Measurement and Significant Figures Instrument used directly impacts the certainty of the measurement and hence the # of significant figures that can be reported.

21. Scientific Notation • Scientific notation - convenient way to write a very small or a very large number. • All digits listed in the number portion are significant • Rules for conversion • Move decimal so that it follows first non-zero digit • Write all sig figs in number followed by (x 10) • Raise the ten to the appropriate power • Decimal moved left (+) the number of places moved • Decimal moved right (-) the number of places moved

22. Physical Quantities

23. Physical Quantities

24. Measuring Mass • Mass is a measure of the amount of matter in an object. Mass does not depend on location. • Weight is a measure of the gravitational force acting on an object. Weight depends on location. • Chemist measure grams or milligrams

25. Measuring Length and Volume • Length has the SI unit of meter (m) • Volume = length x width x height • Units – m3 • Chemist tend to use milliliters (mL) or Liters (L)

26. Measurement and Significant Figures • When reading a measured value • All nonzero digits are significant. • Zero’s • RULE 1. Zeros in the middle of a number are they are always significant. • RULE 2. Zeros at the beginning of a number are not significant • RULE 3. Zeros at the end of a number and after the decimal point are significant. • RULE 4. Zeros at the end of a number and before an implied decimal point may or may not be significant. We cannot tell whether they are part of the measurement or whether they act only to locate the unwritten but implied decimal point. • If a decimal point is shown the zero’s are significant

27. Problem • Which measurement is expressed to 4 significant figures?  • A.  0.00423 kg • B.  24.049 cm • C.  1300 K • D.  82,306 m • E.  62.40 g

28. Performing Problems with Measurements • Why are significant figures important? • How do we convert from one unit to another?

29. Rounding Off Numbers • Often when doing arithmetic on a calculator, the answer is displayed with several digits. • Example - 13.6 / 28 • How many do you keep?

30. Rounding Off Numbers • RULE 1. Multiplication or Division • the answer cannot have more significant figures than the original number with the fewest.

31. Rounding Off Numbers • RULE 2. Addition or Subtraction • the answer cannot have more digits after the decimal point than the original number with the fewest.

32. Rounding Off Numbers • Once you decide how many digits to retain, the rules for rounding off numbers are straightforward: • If the first number dropped is: • 4 or less – let it rest • 5 or more – let it score

33. Problem • The appropriate number of significant figures in the result of 15.234 - 15.208 is  • A.  1 • B.  2 • C.  3 • D.  4 • E.  5

34. Problem • Select the answer that expresses the result of this calculation with the correct number of significant figures. • A.  13.3568 • B.  13.357 • C.  13.36 • D.  13.4 • E.  13

35. Problem • The result of (3.8621 × 1.5630) - 5.98 is properly written as  • A.  0.06 • B.  0.056 • C.  0.0565 • D.  0.05646 • E.  0.056462

36. Converting a Quantity from One Unit to Another • Factor-Label Method: (Starting quantity) x (Conversion factor) = Equivalent quantity

37. Converting a Quantity from One Unit to Another • What is a conversion unit • Ratios, fractions, or two measured quantities that are equivalent • Equal 1 • The important item in these numbers are UNITS

38. Example • How many kilometers is 26.22 miles? • STEP 1: Identify the information given. • STEP 2: Identify the information needed to answer. • STEP 3: Find the relationship(s) between the known information and unknown answer, and plan a series of steps, including conversion factors, for getting from one to the other. • STEP 4: Solve the problem. • BALLPARK CHECK: Make a rough estimate to be sure the value and the units of your calculated answer are reasonable.

39. Problem • The distance between carbon atoms in ethylene is 134 picometers. Which of the following expresses that distance in meters?  • A.  1.34 × 10-13 m • B.  1.34 × 10-12 m • C.  1.34 × 10-10 m • D.  1.34 × 10-7 m • E.  1.34 × 10-6 m

40. Problem • A dose of medication was prescribed to be 35 microliters. Which of the following expresses that volume in centiliters?  • A.  3.5 × 105 cL • B.  3.5 × 104 cL • C.  3.5 cL • D.  3.5 × 10-4 cL • E.  3.5 × 10-3 cL

41. Problem • The average distance between the Earth and the Moon is 240,000 miles. Express this distance in kilometers.  • A.  6.1 × 105 km • B.  5.3 × 105 km • C.  3.9 × l05 km • D.  1.5 × 105 km • E.  9.4 × 104 km

42. Problem • The speed needed to escape the pull of Earth's gravity is 11.3 km/s. What is this speed in mi/h?  • A.  65,500 mi/h • B.  25,300 mi/h • C.  18,200 mi/h • D.  1,090 mi/h • E.  5.02 × 10-3 mi/h

43. Measuring Temperature • 3 scales • Fahrenheit • Celsius • Kelvin

44. Measuring Temperatures • Converting Between Temperature Scales • oF = (1.8 x oC) + 32 • K = oC + 273.15

45. Problem • Isopropyl alcohol, commonly known as rubbing alcohol, boils at 82.4°C. What is the boiling point in kelvins?  • A.  387.6 K • B.  355.6 K • C.  323.6 K • D.  190.8 K • E.  -190.8 K

46. Problem • Acetic acid boils at 244.2°F. What is its boiling point in degrees Celsius?  • A.  382.0°C • B.  167.7°C • C.  153.4°C • D.  117.9°C • E.  103.7°C

47. Density • Density relates the mass of an object to its volume. • Units • grams per cubic centimeter (g/cm3) for solids • grams per milliliter (g/mL) for liquids. Mass (g) Density = Volume (mL or cm3)

48. Density • If the gasoline in a full 20.0 gallon tank weighs 116 lb, what is the density of gasoline in g/mL • How many grams does 1.2 L of water weigh, if at room temperature water has a density of 0.9970 g/cm3

49. Optional Homework • 1.20, 1.25, 1.27, 1.36, 1.38, 1.40, 1.42, 1.44,1.60, 1.62, 1.64, 1.66, 1.68, 1.70, 1.71, 1.72, 1.78, 1.80, 1.82, 1.86, 1.88, 1.90, 1.94, 1.102 • Chapter 1 Homework – from website

50. Required Homework • Read Sections 1.2, 1.3, and 1.4 • Review the Periodic Table Powerpoint • Assignment #1 – from website