Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lecture 139/30/05. Quiz 4 1. Balance the following reaction: Fe(s) + H 2 O(g)  Fe 3 O 4 (s) + H 2 (g) 2. If you begin with 3.0 moles of Fe and 3.0 moles.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Lecture 139/30/05. Quiz 4 1. Balance the following reaction: Fe(s) + H 2 O(g)  Fe 3 O 4 (s) + H 2 (g) 2. If you begin with 3.0 moles of Fe and 3.0 moles."— Presentation transcript:

1 Lecture 139/30/05

2 Quiz 4 1. Balance the following reaction: Fe(s) + H 2 O(g)  Fe 3 O 4 (s) + H 2 (g) 2. If you begin with 3.0 moles of Fe and 3.0 moles H 2 O, how many moles of H 2 can be formed?

3 Solutions: concentrations

4 How to prepare a solution?

5 Dilution of a concentrated solution moles = moles M 1 V 1 = M 2 V 2

6 Dissolve 5.00 g of NiCl 2 6 H 2 O in enough water to make 250 mL of solution. Calculate molarity.

7 Prepare 400 mL of 2.00 M HNO 3 from concentrated nitric acid (16M)

8 Some properties of gases 1. Gases can be compressed 2. Can exert pressure on whatever surrounds them 3. Expands into whatever volume is available 4. Mix completely with one another

9 What is pressure? Pressure = Force/Area Units of pressure: mm Hg (from early barometers) 760 mm Hg at sea level Torr (after Evangelista Torricelli) 760 mm Hg = 760 Torr PSI (pounds per square inch) Atmosphere (atm) Pascal = newton/m 2 Newton = 1 kg-m/s 2 Bar = 10 5 Pa 1 atm = 760 mm Hg = 760 Torr = 101.325 kPa = 1.01325 bar=14.7 PSI

10 Rank the following in decreasing order of magnitude: 75 kPa 250 mm Hg 0.83 bar 0.63 atm

11 Hg rises in tube until: Force(Hg) = Force(atmosphere) Force(down) = Force(up) Pressure of Hg related to: Hg density column height

12 Compare the heights of a Hg barometer and a water barometer if atmospheric pressure is 1 atm. (Density of Hg = 13.53 g/cm 3 )

13 A scuba diver taking photos of a coral reef 60 ft below the ocean surface breathes out a stream of bubbles. What is the total gas pressure of the bubbles at the moment they are released? What is the pressure when the bubbles get to the surface? DUE MONDAY

Download ppt "Lecture 139/30/05. Quiz 4 1. Balance the following reaction: Fe(s) + H 2 O(g)  Fe 3 O 4 (s) + H 2 (g) 2. If you begin with 3.0 moles of Fe and 3.0 moles."

Similar presentations

States of Matter Chap. 13. State of matter in which particles are separated by large distances. I.Gases.

States of Matter Chap. 13. State of matter in which particles are separated by large distances. I.Gases.
Chapter 11: Behavior of Gases

Chapter 11: Behavior of Gases
States of Matter Chapter 13. What You Need to Master How to use the kinetic-molecular theory to explain the physical properties of gasses, liquids, and.

States of Matter Chapter 13. What You Need to Master How to use the kinetic-molecular theory to explain the physical properties of gasses, liquids, and.
1 Chapter 6 The States of Matter 6.6 The Gas Laws.

1 Chapter 6 The States of Matter 6.6 The Gas Laws.
Measuring the Pressure of a Gas and Gas Laws of Boyle, Charles and Avogadro Chemistry 142 B Autumn Quarter, 2004 J. B. Callis, Instructor Lecture #13.

Measuring the Pressure of a Gas and Gas Laws of Boyle, Charles and Avogadro Chemistry 142 B Autumn Quarter, 2004 J. B. Callis, Instructor Lecture #13.
Lecture 1410/3/05. Compare the heights of a Hg barometer and a water barometer if atmospheric pressure is 1 atm. (Density of Hg = 13.53 g/cm 3 )

Lecture 1410/3/05. Compare the heights of a Hg barometer and a water barometer if atmospheric pressure is 1 atm. (Density of Hg = g/cm 3 )
Lecture 1510/5/05 Research club Friday 11:30 am. A scuba diver taking photos of a coral reef 60 ft below the ocean surface breathes out a stream of bubbles.

Lecture 1510/5/05 Research club Friday 11:30 am. A scuba diver taking photos of a coral reef 60 ft below the ocean surface breathes out a stream of bubbles.
1 CHAPTER 12 Gases and the Kinetic-Molecular Theory.

1 CHAPTER 12 Gases and the Kinetic-Molecular Theory.
Chapter 10 PHYSICAL CHARACTERISTICS OF GASES

Chapter 10 PHYSICAL CHARACTERISTICS OF GASES
GASES. Identify the abundances of the naturally occurring gases in the atmosphere. Describe the historical development of the measurement of pressure.

GASES. Identify the abundances of the naturally occurring gases in the atmosphere. Describe the historical development of the measurement of pressure.
Unit 12: Gas Laws Ch. 14. The Kinetic Theory of Gases Assumes the following statements about gas behavior: –Do not attract or repel each other. This is.

Unit 12: Gas Laws Ch. 14. The Kinetic Theory of Gases Assumes the following statements about gas behavior: –Do not attract or repel each other. This is.
PRESENTATION 2 2014 PROPERTIES OF GASES II. Properties of Gases 1. Gases have mass – find mass of empty balloon and filled balloon 2. It is easy to compress.

PRESENTATION PROPERTIES OF GASES II. Properties of Gases 1. Gases have mass – find mass of empty balloon and filled balloon 2. It is easy to compress.
Pressure. The amount of force an object puts on a surface. Pressure is measured by a barometer. Atmospheric pressure comes from air being pulled down.

Pressure. The amount of force an object puts on a surface. Pressure is measured by a barometer. Atmospheric pressure comes from air being pulled down.
1 Lecture 6 Gases Properties of Gases Gas Pressure Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin Cummings.

1 Lecture 6 Gases Properties of Gases Gas Pressure Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin Cummings.
Section 13.1 Describing the Properties of Gases 1.To learn about atmospheric pressure and how barometers work 2.To learn the units of pressure 3.To understand.

Section 13.1 Describing the Properties of Gases 1.To learn about atmospheric pressure and how barometers work 2.To learn the units of pressure 3.To understand.
Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.
Ch 11 Gases Gases and Pressure 11.1 Pressure and Force Pressure – (P) the force per unit area on a surface Pressure – (P) the force per unit area on.

Ch 11 Gases Gases and Pressure 11.1 Pressure and Force Pressure – (P) the force per unit area on a surface Pressure – (P) the force per unit area on.
Chapter 12: The Behavior of Gases. Think of Chem 1A…. Mrs. Richards, Mr. Mazurek, Ms. Knick, Ms. Olin….. What do you remember about gases????

Chapter 12: The Behavior of Gases. Think of Chem 1A…. Mrs. Richards, Mr. Mazurek, Ms. Knick, Ms. Olin….. What do you remember about gases????
GASES AND THEIR BEHAVIOR Chapter 5. Properties of Gases Only 4 quantities are needed to define the state of a gas: 1). The quantity of the gas, n (in.

GASES AND THEIR BEHAVIOR Chapter 5. Properties of Gases Only 4 quantities are needed to define the state of a gas: 1). The quantity of the gas, n (in.
1 Gases Chapter 12. 2 Properties of Gases Expand to completely fill their container Take the Shape of their container Low Density –much less than solid.

1 Gases Chapter Properties of Gases Expand to completely fill their container Take the Shape of their container Low Density –much less than solid.

Similar presentations

Ads by Google