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1 How to Use This Presentation
To View the presentation as a slideshow with effects select “View” on the menu bar and click on “Slide Show.” To advance through the presentation, click the right-arrow key or the space bar. From the resources slide, click on any resource to see a presentation for that resource. From the Chapter menu screen click on any lesson to go directly to that lesson’s presentation. You may exit the slide show at any time by pressing the Esc key.

2 Standardized Test Prep Image and Math Focus Bank
Resources Chapter Presentation Bellringers Transparencies Standardized Test Prep Image and Math Focus Bank CNN Videos Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Visual Concepts

3 Chapter 2 Table of Contents Section 1 What Is Matter?
The Properties of Matter Table of Contents Section 1 What Is Matter? Section 2 Physical Properties Section 3 Chemical Properties Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

4 Chapter 2 Section 1 What Is Matter? Bellringer What do you think some of the ingredients or components are for the following items: a loaf of bread, a textbook, and a bicycle. Write your response in your science journal. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

5 Objectives Chapter 2 Describe the two properties of all matter.
Section 1 What Is Matter? Objectives Describe the two properties of all matter. Identify the units used to measure volume and mass. Compare mass and weight. Explain the relationship between mass and inertia. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

6 Chapter 2 Section 1 What Is Matter? Matter What Is Matter? Matter is anything that has mass and takes up space. Matter in the Universe Everything in the universe that you can see is made up of some type of matter. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

7 Matter Chapter 2 Section 1 What Is Matter?
Click below to watch the Visual Concept. You may stop the video at any time by pressing the Esc key. Visual Concept Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

8 Matter and Volume Chapter 2
Section 1 What Is Matter? Matter and Volume Liquid Volume Liters (L) and milliliters (mL) are the units used most often to express the volume of liquids. Measuring the Volume of Liquids The next slide shows how to measure the volume of liquids. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

9 Measuring the Volume of Liquids
Chapter 2 Section 1 What Is Matter? Measuring the Volume of Liquids Click below to watch the Visual Concept. You may stop the video at any time by pressing the Esc key. Visual Concept Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

10 Volume = length  width  height
Chapter 2 Section 1 What Is Matter? Matter and Volume, continued Volume of a Regularly Shaped Solid Object To find the volume of a regularly shaped solid object use the following equation: Volume = length  width  height Volume of an Irregularly Shaped Solid Object You can find the volume of an irregularly shaped object by measuring the volume of water that the object displaces. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

11 Chapter 2 Section 1 What Is Matter?
Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

12 Matter and Mass Chapter 2
Section 1 What Is Matter? Matter and Mass The Difference Between Mass and Weight Weight is the measure of the gravitational force exerted on an object. The more mass an object has, the greater the gravitational force on the object and the greater the object’s weight. Measuring Mass and Weight The SI unit of mass is the kilogram (kg). Weight is a measure of gravitational force and is expressed in the SI unit of force, the newton (N). Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

13 Chapter 2 Section 1 What Is Matter?
Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

14 Chapter 2 Section 1 What Is Matter? Inertia What Is Inertia? Inertia is the tendency of an object to resist a change in motion. Mass: The Measure of Inertia An object that has a large mass is harder to move and harder to stop than an object that has less mass. The reason is that the object with the large mass has greater inertia. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

15 Chapter 2 Section 2 Physical Properties Bellringer If you were asked to describe an orange to someone who had never seen an orange, what would you tell the person? Write your response in your science journal. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

16 Chapter 2 Section 2 Physical Properties Objectives Identify six examples of physical properties of matter. Describe how density is used to identify substances. List six examples of physical changes. Explain what happens to matter during a physical change. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

17 Physical Properties Chapter 2
Section 2 Physical Properties Physical Properties What Are Physical Properties? A physical property of matter can be observed or measured without changing the matter’s identity. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

18 Chapter 2 Section 2 Physical Properties
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19 Physical Properties, continued
Chapter 2 Section 2 Physical Properties Physical Properties, continued Identifying Matter You use physical properties to identify matter. Density Density is the amount of matter in a given space, or volume. The two balls below have different densities. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

20 Physical Properties, continued
Chapter 2 Section 2 Physical Properties Physical Properties, continued Liquid Layers The graduated cylinder below contains six liquids. Each liquid is a different density so the liquids form layers. Density of Solids Knowing the density of a substance can also tell you what kind of substance it is. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

21 Physical Properties, continued
Chapter 2 Section 2 Physical Properties Physical Properties, continued Solving for Density To find an objects density (D), first measure its mass (m) and volume (V). Then use the following equation: D = m/V Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

22 Physical Properties, continued
Chapter 2 Section 2 Physical Properties Physical Properties, continued Using Density to Identify Substances Look at the table below to compare densities of several common substances. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

23 Chapter 2 Section 2 Physical Properties
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24 Physical Changes Do Not Form New Substances
Chapter 2 Section 2 Physical Properties Physical Changes Do Not Form New Substances Examples of Physical Changes Some examples of physical changes are shown below. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

25 Physical Changes Do Not Form New Substances, continued
Chapter 2 Section 2 Physical Properties Physical Changes Do Not Form New Substances, continued Matter and Physical Changes Physical changes do not change the identity of the matter involved. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

26 Chapter 2 Section 3 Chemical Properties Bellringer Look at the picture of the car on the next slide. Describe where you have seen other examples of rusting. Write your response in your science journal. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

27 Chapter 2 Section 3 Chemical Properties
Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

28 Objectives Chapter 2 Describe two examples of chemical properties.
Section 3 Chemical Properties Objectives Describe two examples of chemical properties. Explain what happens during a chemical change. Distinguish between physical and chemical changes. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

29 Chemical Properties Chapter 2
Section 3 Chemical Properties Chemical Properties Comparing Physical and Chemical Properties You can observe physical properties without changing the identity of the substance. Chemicals properties are more difficult to observe. Characteristic Properties The properties that are most useful in identifying a substance are characteristic properties. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

30 Comparing Physical and Chemical Properties
Chapter 2 Section 3 Chemical Properties Comparing Physical and Chemical Properties Click below to watch the Visual Concept. You may stop the video at any time by pressing the Esc key. Visual Concept Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

31 Chemical Changes and New Substances
Chapter 2 Section 3 Chemical Properties Chemical Changes and New Substances What Happens During a Chemical Change? During a chemical change a substance changes chemical properties. Signs of Chemical Changes Some common signs of chemical changes includes a change in color, odor, production of heat, fizzing, and so on. Matter and Chemical Changes Chemical changes change the identity of the matter involved. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

32 Chapter 2 Section 3 Chemical Properties
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33 Physical Versus Chemical Changes
Chapter 2 Section 3 Chemical Properties Physical Versus Chemical Changes A Change in Composition Physical changes do not change the composition of a substance while chemical changes do. Reversing Changes Many physical changes are easily reversed, but most chemical changes cannot easily be reversed. Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

34 Comparing Physical and Chemical Changes
Chapter 2 Section 3 Chemical Properties Comparing Physical and Chemical Changes Click below to watch the Visual Concept. You may stop the video at any time by pressing the Esc key. Visual Concept Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

35 Chapter 2 The Properties of Matter Concept Map Use the terms below to complete the concept map on the next slide. matter mass motion volume milliliters cubic centimeters weight gravity Header – dark yellow 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0"

36 Chapter 2 The Properties of Matter
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37 Chapter 2 The Properties of Matter
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38 End of Chapter 2 Show Header – dark yellow 24 points Arial Bold
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39 Chapter 2 Standardized Test Preparation Reading Read each of the passages. Then, answer the questions that follow each passage.

40 Chapter 2 Standardized Test Preparation Passage 1 Astronomers were studying the motions of galaxies in space when they noticed something odd. They thought that the large gravitational force, which causes the galaxies to rotate rapidly, was due to a large amount of mass in the galaxies. Then, they discovered that the mass of the galaxies was not great enough to explain this large gravitational force. So, what was causing the additional gravitational force? One theory is that the universe contains matter that we cannot see with our eyes or our telescopes. Astronomers call this invisible matter dark matter.

41 Chapter 2 Standardized Test Preparation 1. According to this passage, what did astronomers originally think caused the rotation of the galaxies? A a lack of inertia B a large gravitational force C a small amount of mass in the galaxies D a small gravitational force

42 Chapter 2 Standardized Test Preparation 1. According to this passage, what did astronomers originally think caused the rotation of the galaxies? A a lack of inertia B a large gravitational force C a small amount of mass in the galaxies D a small gravitational force

43 Chapter 2 2. Why do you think astronomers use the term dark matter?
Standardized Test Preparation 2. Why do you think astronomers use the term dark matter? F Dark matter refers to dark objects. G Dark matter refers to matter that we can’t see. H You need a telescope to see dark matter. I All large objects are dark.

44 Chapter 2 2. Why do you think astronomers use the term dark matter?
Standardized Test Preparation 2. Why do you think astronomers use the term dark matter? F Dark matter refers to dark objects. G Dark matter refers to matter that we can’t see. H You need a telescope to see dark matter. I All large objects are dark.

45 Chapter 2 3. Which statement is the best summary of the passage?
Standardized Test Preparation 3. Which statement is the best summary of the passage? A The enormous amount of mass in the galaxies explains why the galaxies rotate. B Dark matter may be responsible for the gravitational force that causes the rotation of galaxies. C Invisible matter is called dark matter. D Galaxies rotate as they move through the universe.

46 Chapter 2 3. Which statement is the best summary of the passage?
Standardized Test Preparation 3. Which statement is the best summary of the passage? A The enormous amount of mass in the galaxies explains why the galaxies rotate. B Dark matter may be responsible for the gravitational force that causes the rotation of galaxies. C Invisible matter is called dark matter. D Galaxies rotate as they move through the universe.

47 Chapter 2 Standardized Test Preparation Passage 2 Blimps and dirigibles are types of airships. An airship consists of an engine, a large balloon that contains gas, and a gondola that carries passengers and crew. Airships float in air because the gases that the airships contain are less dense than air. In the early 1900s, airships were commonly used for travel, including transatlantic flights. Airships were less frequently used after the 1937 explosion and crash of the Hindenburg in New Jersey. The Hindenburg was filled with flammable hydrogen gas instead of helium gas, which is nonflammable.

48 Chapter 2 1. In this passage, what does flammable mean? A able to burn
Standardized Test Preparation 1. In this passage, what does flammable mean? A able to burn B able to float C able to sink D not able to burn

49 Chapter 2 1. In this passage, what does flammable mean? A able to burn
Standardized Test Preparation 1. In this passage, what does flammable mean? A able to burn B able to float C able to sink D not able to burn

50 Chapter 2 Standardized Test Preparation 2. Which of the following statements is true according to the passage? F Hydrogen gas is nonflammable. G Airships float because they contain gases that are less dense than air. H Helium gas was used in the Hindenburg. I The gondola contains gas.

51 Chapter 2 Standardized Test Preparation 2. Which of the following statements is true according to the passage? F Hydrogen gas is nonflammable. G Airships float because they contain gases that are less dense than air. H Helium gas was used in the Hindenburg. I The gondola contains gas.

52 Chapter 2 3. Which of the following statements about airships is true?
Standardized Test Preparation 3. Which of the following statements about airships is true? A Airships are still a major mode of transportation. B Airships now contain nonflammable, hydrogen gas. C Airships consist of an engine, a gondola, and a large balloon. D Airships traveled only in the United States.

53 Chapter 2 3. Which of the following statements about airships is true?
Standardized Test Preparation 3. Which of the following statements about airships is true? A Airships are still a major mode of transportation. B Airships now contain nonflammable, hydrogen gas. C Airships consist of an engine, a gondola, and a large balloon. D Airships traveled only in the United States.

54 Interpreting Graphics
Chapter 2 Standardized Test Preparation Interpreting Graphics The table below shows the properties of different substances. Use the table below to answer the questions that follow.

55 Chapter 2 Standardized Test Preparation 1. What could you use to tell pyrite (fool’s gold) and gold apart? A volume B density C mass D state

56 Chapter 2 Standardized Test Preparation 1. What could you use to tell pyrite (fool’s gold) and gold apart? A volume B density C mass D state

57 Chapter 2 Standardized Test Preparation 2. What do you think would happen if you placed a nugget of pyrite into a beaker of mercury? F The pyrite would sink. G The pyrite would dissolve. H The mercury and the pyrite would react. I The pyrite would float.

58 Chapter 2 Standardized Test Preparation 2. What do you think would happen if you placed a nugget of pyrite into a beaker of mercury? F The pyrite would sink. G The pyrite would dissolve. H The mercury and the pyrite would react. I The pyrite would float.

59 Chapter 2 Standardized Test Preparation 3. If a nugget of pyrite and a nugget of gold each have a mass of 50 g, what can you conclude about the volume of each nugget? A The volume of pyrite is greater than the volume of gold. B The volume of pyrite is less than the volume of gold. C The volumes of the substances are equal. D There is not enough information to determine the answer.

60 Chapter 2 Standardized Test Preparation 3. If a nugget of pyrite and a nugget of gold each have a mass of 50 g, what can you conclude about the volume of each nugget? A The volume of pyrite is greater than the volume of gold. B The volume of pyrite is less than the volume of gold. C The volumes of the substances are equal. D There is not enough information to determine the answer.

61 Chapter 2 4. Which substance has the lowest density? F helium G pyrite
Standardized Test Preparation 4. Which substance has the lowest density? F helium G pyrite H mercury I gold

62 Chapter 2 4. Which substance has the lowest density? F helium G pyrite
Standardized Test Preparation 4. Which substance has the lowest density? F helium G pyrite H mercury I gold

63 Chapter 2 Math Read each question, and choose the best answer.
Standardized Test Preparation Math Read each question, and choose the best answer.

64 Chapter 2 Standardized Test Preparation 1. Imagine that you have discovered a new element, and you want to find its density. It has a mass of 78.8 g and a volume of 8 cm3. To find the density of the element, you must divide the element’s mass by its volume. What is the density of the element? A g/cm3 B 0.98 g/cm3 C 9.85 g/cm3 D g/cm3

65 Chapter 2 Standardized Test Preparation 1. Imagine that you have discovered a new element, and you want to find its density. It has a mass of 78.8 g and a volume of 8 cm3. To find the density of the element, you must divide the element’s mass by its volume. What is the density of the element? A g/cm3 B 0.98 g/cm3 C 9.85 g/cm3 D g/cm3

66 Chapter 2 Standardized Test Preparation 2. Many soft drinks come in bottles that contain about 590 mL. If the density of a soft drink is 1.05 g/mL, what is the mass of the drink? F g G g H g I g

67 Chapter 2 Standardized Test Preparation 2. Many soft drinks come in bottles that contain about 590 mL. If the density of a soft drink is 1.05 g/mL, what is the mass of the drink? F g G g H g I g

68 Chapter 2 Standardized Test Preparation 3. If you have 150 g of pure gold and the density of gold is g/cm3 , what is the volume of your gold nugget? A cm3 B 7.76 cm3 C 0.98 cm3 D 0.13 cm3

69 Chapter 2 Standardized Test Preparation 3. If you have 150 g of pure gold and the density of gold is g/cm3 , what is the volume of your gold nugget? A cm3 B 7.76 cm3 C 0.98 cm3 D 0.13 cm3

70 Chapter 2 Standardized Test Preparation 4. Three objects have a mass of 16 g each. But their volumes differ. Object A, a liquid, has a volume of 1.2 mL. Object B, a solid, has a volume of 3.2 cm3. Object C, another solid, has a volume of 1.9 cm3. Which object is the least dense? F object A G object B H object C I There is not enough information to determine the answer.

71 Chapter 2 Standardized Test Preparation 4. Three objects have a mass of 16 g each. But their volumes differ. Object A, a liquid, has a volume of 1.2 mL. Object B, a solid, has a volume of 3.2 cm3. Object C, another solid, has a volume of 1.9 cm3. Which object is the least dense? F object A G object B H object C I There is not enough information to determine the answer.

72 Chapter 2 Section 2 Physical Properties
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73 Chapter 2 Section 2 Physical Properties
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74 Chapter 2 Section 2 Physical Properties
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75 Chapter 2 Section 2 Physical Properties
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