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The Resource The physics of sports, Michael Lisa, The Ohio State University

The physics of sports, Michael Lisa, The Ohio State University

Resource Information

The item The physics of sports, Michael Lisa, The Ohio State University represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Yuma County Library District.
This item is available to borrow from 1 library branch.

Creator

Lisa, Michael

Summary: "There is a large and growing number of excellent books on physics and sports. While these books are well written, educational, and often entertaining, they are simply not textbooks. Physics concepts such as force, velocity, and torque, come into the discussion. Interesting facts are given, and occasionally a formula is applied. However, the focus is typically on conveying interesting physics related facts about a particular sport, rather than developing a general appreciation and facility for scientific reasoning. This book is intended as a textbook for a 1 semester or a 1-2 quarter undergraduate course, for students not necessarily intending to major in Physical Science, Engineering, or a related field. With this course, it is hoped that a student's natural interest in athletics and the direct relevance to concrete material will bridge the gap for students turned off by the seemingly abstract stuff covered in many undergraduate physics courses. The discussion being completely centered around real life examples, allows students to understand sports by talking about Physics."--Publisher's website

Language: eng

Work

Publication

New York, NY, McGraw-Hill Education, 2016

Extent: xxiii, 378 pages

Contents

Part I. Primary Chapters. 1. Warm-up: Basic concepts -- 2. Racing, Mathematically -- 3. Net Force: Dwight Howard illustrates -- 4. Punts, the Fosbury Flop, and Other Projectile Motions -- 5. Curveballs, Foul Shots, and Bent Kicks -- 6. Game Changers: Collisions in Sports -- 7. Energy in Sports: Bursts of Power -- 8. Energy and Timing in Elastic Equipment -- 9. The Physics of Cycling -- 10. Twisting Athletes in Flight -- Part II. Supplementary Chapters. 11. Lines of Action on the Line of Scrimmage: The Torque Wars -- 12. A Barry Bonds Home Run -- 13. The Pole Vault -- 14. Is It Better to Run through First Base or to Dive? --
1.3.
9.2.
Power Output
9.3.
Talansky Drives the Bike
10.
Twisting Athletes in Flight
10.1.
Human Rotation
10.2.
Backward Giant Circle
The Center of Mass
10.3.
Figure Skating: Spinning on Ice
10.4.
Rotational Action and Reaction
Part II.
Supplementary Chapters :
11.
Lines of Action on the Line of Scrimmage: The Torque Wars
12.
A Barry Bonds Home Run
2.
12.1.
Ball-Bat Collision: Speeds, Impulse, Force
12.2.
Batted Ball Speed
12.3.
Focus on the Bat
13.
The Pole Vault
13.1.
Origins
Racing, Mathematically
14.
Is It Better to Run through First Base or to Dive?
14.1.
The Story according to Sport Science
14.2.
Too Close to Call
14.3.
Diving Speed
14.4.
What's Really Happening: Torque and Impulse
2.1.
14.5.
Other Issues
14.6.
Concluding Remarks
Phelps in Beijing
2.2.
Bolt in Berlin
2.3.
Rope-Climbing and Diving
Part I.
3.
Net Force: Dwight Howard illustrates
3.1.
How Things Interact: Forces
3.2.
The Physics of a Dwight Howard Dunk
3.3.
Sideways Traction
3.4.
More-Complex Situations
Primary Chapters :
3.5.
"Imaginary Forces" in Sports
4.
Punts, the Fosbury Flop, and Other Projectile Motions
4.1.
The Math: Simpler Than You Think
4.2.
Football Punt: Range, Hang Time, and Compromise
4.3.
Shot-Put
1.
4.4.
Human Projectiles
5.
Curveballs, Foul Shots, and Bent Kicks
5.1.
Overview
5.2.
Immersion in Fluid: Buoyancy
5.3.
Moving Through Fluid Drag
Warm-up: Basic concepts
5.4.
Sideward Forces from Asymmetries
5.5.
Aerodynamic Forces, One at a Time
5.6.
More Complicated Aerodynamics in Sports
5.7.
Not All Air Is Created Equal
6.
Game Changers: Collisions in Sports
1.1.
6.1.
What a Collision Is and How to Think About It
6.2.
The Physics of a Football Tackle
6.3.
Gentler Pursuits: Bowling
6.4.
A Happy Medium: Dribbling and Driving
6.5.
Off-Center Hits: Spinning the Ball
Quantifying the World of Sports
7.
Energy in Sports: Bursts of Power
7.1.
Bouncing Basketball: The Whole Process
7.2.
Efficiency
7.3.
The Athlete: The Energetic Starting Point
7.4.
Keeping Score: Energy Accounting in Sports
1.2.
7.5.
Uncle Rico's Hopes Dashed
7.6.
Behdad Salimikordsiabi's Clean and Jerk
8.
Energy and Timing in Elastic Equipment
8.1.
The Physics of Archery I: Energy Storage and Transfer
8.2.
The Physics of Archery II: Fire Power
When We Don't Have Exact Numbers
8.3.
The Physics of Archery III: Archer's Paradox
8.4.
Zdeno Chara's Slap Shot: Fast Storage, Faster Release
8.5.
Bungee-Jumping Brides and Quadratic Equations
9.
The Physics of Cycling
9.1.
Input to the Bike: Sustained Human Power

Isbn: 9780073513973

Instance

Label: The physics of sports

Title: The physics of sports

Statement of responsibility: Michael Lisa, The Ohio State University

Creator

Lisa, Michael

Subject

Genre

Textbooks

Language: eng

Summary: "There is a large and growing number of excellent books on physics and sports. While these books are well written, educational, and often entertaining, they are simply not textbooks. Physics concepts such as force, velocity, and torque, come into the discussion. Interesting facts are given, and occasionally a formula is applied. However, the focus is typically on conveying interesting physics related facts about a particular sport, rather than developing a general appreciation and facility for scientific reasoning. This book is intended as a textbook for a 1 semester or a 1-2 quarter undergraduate course, for students not necessarily intending to major in Physical Science, Engineering, or a related field. With this course, it is hoped that a student's natural interest in athletics and the direct relevance to concrete material will bridge the gap for students turned off by the seemingly abstract stuff covered in many undergraduate physics courses. The discussion being completely centered around real life examples, allows students to understand sports by talking about Physics."--Publisher's website

Cataloging source: DLC

http://library.link/vocab/creatorName: Lisa, Michael

Dewey number: 796.01/53

Illustrations

illustrations
portraits
photographs

Index: no index present

LC call number: QC26

LC item number: .L57 2016

Literary form: non fiction

http://library.link/vocab/subjectName

Physics
Sports
Physics
Sports

Label: The physics of sports, Michael Lisa, The Ohio State University

Instantiates

The physics of sports

Publication

New York, NY, McGraw-Hill Education, 2016

Bibliography note: Includes bibliographical references and index

Carrier category: volume

Carrier MARC source: rdacarrier

Content category: text

Content type MARC source: rdacontent

Contents

Part I. Primary Chapters. 1. Warm-up: Basic concepts -- 2. Racing, Mathematically -- 3. Net Force: Dwight Howard illustrates -- 4. Punts, the Fosbury Flop, and Other Projectile Motions -- 5. Curveballs, Foul Shots, and Bent Kicks -- 6. Game Changers: Collisions in Sports -- 7. Energy in Sports: Bursts of Power -- 8. Energy and Timing in Elastic Equipment -- 9. The Physics of Cycling -- 10. Twisting Athletes in Flight -- Part II. Supplementary Chapters. 11. Lines of Action on the Line of Scrimmage: The Torque Wars -- 12. A Barry Bonds Home Run -- 13. The Pole Vault -- 14. Is It Better to Run through First Base or to Dive? --
1.3.
9.2.
Power Output
9.3.
Talansky Drives the Bike
10.
Twisting Athletes in Flight
10.1.
Human Rotation
10.2.
Backward Giant Circle
The Center of Mass
10.3.
Figure Skating: Spinning on Ice
10.4.
Rotational Action and Reaction
Part II.
Supplementary Chapters :
11.
Lines of Action on the Line of Scrimmage: The Torque Wars
12.
A Barry Bonds Home Run
2.
12.1.
Ball-Bat Collision: Speeds, Impulse, Force
12.2.
Batted Ball Speed
12.3.
Focus on the Bat
13.
The Pole Vault
13.1.
Origins
Racing, Mathematically
14.
Is It Better to Run through First Base or to Dive?
14.1.
The Story according to Sport Science
14.2.
Too Close to Call
14.3.
Diving Speed
14.4.
What's Really Happening: Torque and Impulse
2.1.
14.5.
Other Issues
14.6.
Concluding Remarks
Phelps in Beijing
2.2.
Bolt in Berlin
2.3.
Rope-Climbing and Diving
Part I.
3.
Net Force: Dwight Howard illustrates
3.1.
How Things Interact: Forces
3.2.
The Physics of a Dwight Howard Dunk
3.3.
Sideways Traction
3.4.
More-Complex Situations
Primary Chapters :
3.5.
"Imaginary Forces" in Sports
4.
Punts, the Fosbury Flop, and Other Projectile Motions
4.1.
The Math: Simpler Than You Think
4.2.
Football Punt: Range, Hang Time, and Compromise
4.3.
Shot-Put
1.
4.4.
Human Projectiles
5.
Curveballs, Foul Shots, and Bent Kicks
5.1.
Overview
5.2.
Immersion in Fluid: Buoyancy
5.3.
Moving Through Fluid Drag
Warm-up: Basic concepts
5.4.
Sideward Forces from Asymmetries
5.5.
Aerodynamic Forces, One at a Time
5.6.
More Complicated Aerodynamics in Sports
5.7.
Not All Air Is Created Equal
6.
Game Changers: Collisions in Sports
1.1.
6.1.
What a Collision Is and How to Think About It
6.2.
The Physics of a Football Tackle
6.3.
Gentler Pursuits: Bowling
6.4.
A Happy Medium: Dribbling and Driving
6.5.
Off-Center Hits: Spinning the Ball
Quantifying the World of Sports
7.
Energy in Sports: Bursts of Power
7.1.
Bouncing Basketball: The Whole Process
7.2.
Efficiency
7.3.
The Athlete: The Energetic Starting Point
7.4.
Keeping Score: Energy Accounting in Sports
1.2.
7.5.
Uncle Rico's Hopes Dashed
7.6.
Behdad Salimikordsiabi's Clean and Jerk
8.
Energy and Timing in Elastic Equipment
8.1.
The Physics of Archery I: Energy Storage and Transfer
8.2.
The Physics of Archery II: Fire Power
When We Don't Have Exact Numbers
8.3.
The Physics of Archery III: Archer's Paradox
8.4.
Zdeno Chara's Slap Shot: Fast Storage, Faster Release
8.5.
Bungee-Jumping Brides and Quadratic Equations
9.
The Physics of Cycling
9.1.
Input to the Bike: Sustained Human Power

Control code: ocn932128467

Dimensions: 28cm

Extent: xxiii, 378 pages

Isbn: 9780073513973

Isbn Type: (alk. paper)

Lccn: 2016006219

Media category: unmediated

Media MARC source: rdamedia

Other physical details: illustrations (chiefly color), photographs (chiefly color), portrait

System control number: (OCoLC)932128467

Label: The physics of sports, Michael Lisa, The Ohio State University

Publication

New York, NY, McGraw-Hill Education, 2016

Bibliography note: Includes bibliographical references and index

Carrier category: volume

Carrier MARC source: rdacarrier

Content category: text

Content type MARC source: rdacontent

Contents

Part I. Primary Chapters. 1. Warm-up: Basic concepts -- 2. Racing, Mathematically -- 3. Net Force: Dwight Howard illustrates -- 4. Punts, the Fosbury Flop, and Other Projectile Motions -- 5. Curveballs, Foul Shots, and Bent Kicks -- 6. Game Changers: Collisions in Sports -- 7. Energy in Sports: Bursts of Power -- 8. Energy and Timing in Elastic Equipment -- 9. The Physics of Cycling -- 10. Twisting Athletes in Flight -- Part II. Supplementary Chapters. 11. Lines of Action on the Line of Scrimmage: The Torque Wars -- 12. A Barry Bonds Home Run -- 13. The Pole Vault -- 14. Is It Better to Run through First Base or to Dive? --
1.3.
9.2.
Power Output
9.3.
Talansky Drives the Bike
10.
Twisting Athletes in Flight
10.1.
Human Rotation
10.2.
Backward Giant Circle
The Center of Mass
10.3.
Figure Skating: Spinning on Ice
10.4.
Rotational Action and Reaction
Part II.
Supplementary Chapters :
11.
Lines of Action on the Line of Scrimmage: The Torque Wars
12.
A Barry Bonds Home Run
2.
12.1.
Ball-Bat Collision: Speeds, Impulse, Force
12.2.
Batted Ball Speed
12.3.
Focus on the Bat
13.
The Pole Vault
13.1.
Origins
Racing, Mathematically
14.
Is It Better to Run through First Base or to Dive?
14.1.
The Story according to Sport Science
14.2.
Too Close to Call
14.3.
Diving Speed
14.4.
What's Really Happening: Torque and Impulse
2.1.
14.5.
Other Issues
14.6.
Concluding Remarks
Phelps in Beijing
2.2.
Bolt in Berlin
2.3.
Rope-Climbing and Diving
Part I.
3.
Net Force: Dwight Howard illustrates
3.1.
How Things Interact: Forces
3.2.
The Physics of a Dwight Howard Dunk
3.3.
Sideways Traction
3.4.
More-Complex Situations
Primary Chapters :
3.5.
"Imaginary Forces" in Sports
4.
Punts, the Fosbury Flop, and Other Projectile Motions
4.1.
The Math: Simpler Than You Think
4.2.
Football Punt: Range, Hang Time, and Compromise
4.3.
Shot-Put
1.
4.4.
Human Projectiles
5.
Curveballs, Foul Shots, and Bent Kicks
5.1.
Overview
5.2.
Immersion in Fluid: Buoyancy
5.3.
Moving Through Fluid Drag
Warm-up: Basic concepts
5.4.
Sideward Forces from Asymmetries
5.5.
Aerodynamic Forces, One at a Time
5.6.
More Complicated Aerodynamics in Sports
5.7.
Not All Air Is Created Equal
6.
Game Changers: Collisions in Sports
1.1.
6.1.
What a Collision Is and How to Think About It
6.2.
The Physics of a Football Tackle
6.3.
Gentler Pursuits: Bowling
6.4.
A Happy Medium: Dribbling and Driving
6.5.
Off-Center Hits: Spinning the Ball
Quantifying the World of Sports
7.
Energy in Sports: Bursts of Power
7.1.
Bouncing Basketball: The Whole Process
7.2.
Efficiency
7.3.
The Athlete: The Energetic Starting Point
7.4.
Keeping Score: Energy Accounting in Sports
1.2.
7.5.
Uncle Rico's Hopes Dashed
7.6.
Behdad Salimikordsiabi's Clean and Jerk
8.
Energy and Timing in Elastic Equipment
8.1.
The Physics of Archery I: Energy Storage and Transfer
8.2.
The Physics of Archery II: Fire Power
When We Don't Have Exact Numbers
8.3.
The Physics of Archery III: Archer's Paradox
8.4.
Zdeno Chara's Slap Shot: Fast Storage, Faster Release
8.5.
Bungee-Jumping Brides and Quadratic Equations
9.
The Physics of Cycling
9.1.
Input to the Bike: Sustained Human Power

Control code: ocn932128467

Dimensions: 28cm

Extent: xxiii, 378 pages

Isbn: 9780073513973

Isbn Type: (alk. paper)

Lccn: 2016006219

Media category: unmediated

Media MARC source: rdamedia

Other physical details: illustrations (chiefly color), photographs (chiefly color), portrait

System control number: (OCoLC)932128467

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