Slide 1 of 39 chemistry. © Copyright Pearson Prentice Hall Slide 2 of 39 Mole–Mass and Mole–Volume Relationships How can you guess the number of jelly.

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Presentation transcript:

Slide 1 of 39 chemistry

© Copyright Pearson Prentice Hall Slide 2 of 39 Mole–Mass and Mole–Volume Relationships How can you guess the number of jelly beans in a jar? You estimate the size of a jelly bean and then estimate the dimensions of the container to obtain its volume. In a similar way, chemists use the relationships between the mole and quantities such as mass, volume, and number of particles to solve chemistry problems. 10.2

© Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > Slide 3 of 39 The Mole–Mass Relationship How do you convert the mass of a substance to the number of moles of the substance? 10.2

Slide 4 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Mass Relationship Use the molar mass of an element or compound to convert between the mass of a substance and the moles of a substance. 10.2

© Copyright Pearson Prentice Hall SAMPLE PROBLEM Slide 5 of

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© Copyright Pearson Prentice Hall Slide 9 of 39 Practice Problems for Sample Problem 10.5 Problem Solving Solve Problem 16 with the help of an interactive guided tutorial.

© Copyright Pearson Prentice Hall SAMPLE PROBLEM Slide 10 of

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© Copyright Pearson Prentice Hall Slide 14 of 39 Practice Problems for Sample Problem 10.6 Problem Solving Solve Problem 18 with the help of an interactive guided tutorial.

© Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > Slide 15 of 39 The Mole–Volume Relationship What is the volume of a gas at STP? 10.2

Slide 16 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Volume Relationship Avogadro’s hypothesis states that equal volumes of gases at the same temperature and pressure contain equal numbers of particles. 10.2

Slide 17 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Volume Relationship The volume of a gas varies with temperature and pressure. Because of these variations, the volume of a gas is usually measured at a standard temperature and pressure. Standard temperature and pressure (STP) means a temperature of 0°C and a pressure of kPa, or 1 atmosphere (atm). 10.2

Slide 18 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Volume Relationship At STP, 1 mol or, 6.02  representative particles, of any gas occupies a volume of 22.4 L. The quantity 22.4 L is called the molar volume of a gas. 10.2

Slide 19 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Volume Relationship Calculating Volume at STP 10.2

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© Copyright Pearson Prentice Hall Slide 24 of 39 Practice Problems for Sample Problem 10.7 Problem Solving Solve Problem 20 with the help of an interactive guided tutorial.

Slide 25 of 39 © Copyright Pearson Prentice Hall Mole–Mass and Mole– Volume Relationships > The Mole–Volume Relationship Calculating Molar Mass from Density 10.2

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© Copyright Pearson Prentice Hall Slide 30 of 39 Practice Problems for Sample Problem 10.8 Problem Solving Solve Problem 22 with the help of an interactive guided tutorial.

© Copyright Pearson Prentice Hall Slide 31 of 39 Mole–Mass and Mole– Volume Relationships > The Mole Road Map 10.2

© Copyright Pearson Prentice Hall Slide 32 of 39 Mole–Mass and Mole– Volume Relationships > The Mole Road Map 10.2

© Copyright Pearson Prentice Hall Slide 33 of 39 Mole–Mass and Mole– Volume Relationships > The Mole Road Map 10.2

© Copyright Pearson Prentice Hall Slide 34 of 39 Mole–Mass and Mole– Volume Relationships > The Mole Road Map 10.2

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