Description

Book Synopsis
From selecting shifting points to load transfer in car control and beyond, Fast Car Physics is the ideal source to consult before buckling up and cinching down the belts on your racing harness.

Trade Review
You don't have to be an engineer to build a fast race car but that certainly helps. Fast Car Physics helps enthusiasts apply the knowledge they gained in high school and college physics courses to the operation and tuning of a track car. Best of all, he does it in a clear and easy-to-follow manner. Grassroots Motorsports 2011 Fans of fast wheels and science alike will get a charge from this look at motor sports. Science News 2011 If motor racing and physics are your thing, you will love this book -- Ken Zetie Physics Education 2011

Table of Contents

Preface
Acknowledgments
1. Torque or Horsepower? Finding the Shift Points
1.1. Acceleration and Newton's Second Law
1.2. Velocity, Speed, Rotation, and Engine rpm
1.3. The Car, Horsepower, and Torque
1.4. Tire Markings
1.5. Calculations
1.6. First Gear, It's All Right. Second Gear . . .
1.7. Summary
2. Horsepower, 0 to 60 mph, and the Quarter Mile
2.1. Horsepower
2.2. How Does Drag Force Affect Shift Points?
2.3. Gear Ratios
2.4. Calculating 0 to 60 mph Times
2.5. Assumptions and Results
2.6. What Is the Limit for 0 to 60 mph?
2.7. Aerodynamic Drag
2.8. Correction Factors
2.9. The Quarter Mile
2.10. Flat Torque Curves
2.11. Top Fuel Dragsters
2.12. Summary
3. Finding the Racing Line: Road Racing
3.1. The Traction Circle
3.2. Ninety Degree Right-Hand Turn
3.3. General Turn
3.4. Constructing a Track Model
3.5. Types of Turns
3.6. Type 1 Turn
3.7. Type 2 Turn
3.8. Type 3 Turn
3.9. Turning While Speeding Up
3.10. Summary
4. Basic Vehicle Dynamics: Load Transfer and Tires
4.1. Center of Gravity
4.2. Longitudinal and Lateral Center of Gravity
4.3. Height of the Center of Gravity
4.4. Load Transfer and the Static Stability Factor
4.5. Tires and Forces
4.6. Tire Construction
4.7. Wheels
4.8. Tires under Static Load
4.9. Tires under Dynamic Load
4.10. Contact Patch Friction
4.11. Material Properties and Testing
4.12. Longitudinal Force and Longitudinal Slip
4.13. Lateral Force and the Slip Angle
4.14. Aligning Torque
4.15. Summary
5. Steering and Suspension
5.1. More on Steering
5.2. Bicycle Model: Oversteer and Understeer
5.3. Wheel Alignment
5.4. Suspension Basics
5.5. Double A-arm or Wishbone Suspension
5.6. MacPherson Strut Suspension
5.7. NASCAR-Type Solid Rear Axle
5.8. Springs and Dampers
5.9. Shock Absorbers
5.10. Lateral Load Transfer: Advanced Approach
5.11. Correcting Handling Problems
5.12. Understeer Correction
5.13. Oversteer Correction
5.14. Summary
6. Green Racing
6.1. What Is Green Racing?
6.2. Regenerative Braking
6.3. Mechanical Energy Storage: Flywheels
6.4. Mechanical Energy Storage: Batteries
6.5. Mechanical Energy Storage: Capacitors
6.6. What Type of Hybrid Is It?
6.7. Parallel Configuration Hybrid: Toyota Prius
6.8. All-Electric Vehicles
6.9. Fuel Cells
6.10. Alternative Fuels
6.11. Summary
Conclusion
Get Off the Streets and Go Racing!
Suggested Reading
Index

Fast Car Physics

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    RRP £66.50 – you save £6.65 (10%)

    Order before 4pm tomorrow for delivery by Tue 9 Jun 2026.

    A Hardback by Chuck Edmondson

    1 in stock


      View other formats and editions of Fast Car Physics by Chuck Edmondson

      Publisher: Johns Hopkins University Press
      Publication Date: 26/04/2011
      ISBN13: 9780801898228, 978-0801898228
      ISBN10: 0801898226
      Also in:
      Mathematics Applied mathematics Science & Nature Applied physics Sport Motor sports

      Description

      Book Synopsis
      From selecting shifting points to load transfer in car control and beyond, Fast Car Physics is the ideal source to consult before buckling up and cinching down the belts on your racing harness.

      Trade Review
      You don't have to be an engineer to build a fast race car but that certainly helps. Fast Car Physics helps enthusiasts apply the knowledge they gained in high school and college physics courses to the operation and tuning of a track car. Best of all, he does it in a clear and easy-to-follow manner. Grassroots Motorsports 2011 Fans of fast wheels and science alike will get a charge from this look at motor sports. Science News 2011 If motor racing and physics are your thing, you will love this book -- Ken Zetie Physics Education 2011

      Table of Contents

      Preface
      Acknowledgments
      1. Torque or Horsepower? Finding the Shift Points
      1.1. Acceleration and Newton's Second Law
      1.2. Velocity, Speed, Rotation, and Engine rpm
      1.3. The Car, Horsepower, and Torque
      1.4. Tire Markings
      1.5. Calculations
      1.6. First Gear, It's All Right. Second Gear . . .
      1.7. Summary
      2. Horsepower, 0 to 60 mph, and the Quarter Mile
      2.1. Horsepower
      2.2. How Does Drag Force Affect Shift Points?
      2.3. Gear Ratios
      2.4. Calculating 0 to 60 mph Times
      2.5. Assumptions and Results
      2.6. What Is the Limit for 0 to 60 mph?
      2.7. Aerodynamic Drag
      2.8. Correction Factors
      2.9. The Quarter Mile
      2.10. Flat Torque Curves
      2.11. Top Fuel Dragsters
      2.12. Summary
      3. Finding the Racing Line: Road Racing
      3.1. The Traction Circle
      3.2. Ninety Degree Right-Hand Turn
      3.3. General Turn
      3.4. Constructing a Track Model
      3.5. Types of Turns
      3.6. Type 1 Turn
      3.7. Type 2 Turn
      3.8. Type 3 Turn
      3.9. Turning While Speeding Up
      3.10. Summary
      4. Basic Vehicle Dynamics: Load Transfer and Tires
      4.1. Center of Gravity
      4.2. Longitudinal and Lateral Center of Gravity
      4.3. Height of the Center of Gravity
      4.4. Load Transfer and the Static Stability Factor
      4.5. Tires and Forces
      4.6. Tire Construction
      4.7. Wheels
      4.8. Tires under Static Load
      4.9. Tires under Dynamic Load
      4.10. Contact Patch Friction
      4.11. Material Properties and Testing
      4.12. Longitudinal Force and Longitudinal Slip
      4.13. Lateral Force and the Slip Angle
      4.14. Aligning Torque
      4.15. Summary
      5. Steering and Suspension
      5.1. More on Steering
      5.2. Bicycle Model: Oversteer and Understeer
      5.3. Wheel Alignment
      5.4. Suspension Basics
      5.5. Double A-arm or Wishbone Suspension
      5.6. MacPherson Strut Suspension
      5.7. NASCAR-Type Solid Rear Axle
      5.8. Springs and Dampers
      5.9. Shock Absorbers
      5.10. Lateral Load Transfer: Advanced Approach
      5.11. Correcting Handling Problems
      5.12. Understeer Correction
      5.13. Oversteer Correction
      5.14. Summary
      6. Green Racing
      6.1. What Is Green Racing?
      6.2. Regenerative Braking
      6.3. Mechanical Energy Storage: Flywheels
      6.4. Mechanical Energy Storage: Batteries
      6.5. Mechanical Energy Storage: Capacitors
      6.6. What Type of Hybrid Is It?
      6.7. Parallel Configuration Hybrid: Toyota Prius
      6.8. All-Electric Vehicles
      6.9. Fuel Cells
      6.10. Alternative Fuels
      6.11. Summary
      Conclusion
      Get Off the Streets and Go Racing!
      Suggested Reading
      Index

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