Try Blinkist to get the key ideas from 7,500+ bestselling nonfiction titles and podcasts. Listen or read in just 15 minutes.
Start your free trialBlink 3 of 8 - The 5 AM Club
by Robin Sharma
Performance Automotive Engine Math by John Baechtel is a comprehensive guide that delves into the mathematical principles behind designing and building high-performance engines. It covers topics such as airflow, compression ratio, and camshaft timing, providing valuable insights for automotive enthusiasts and professionals alike.
In Performance Automotive Engine Math by John Baechtel, we delve into the intricate world of high-performance automotive engines, beginning with the fundamental mathematical principles that govern their design and operation. Baechtel introduces us to the concept of displacement, the volume swept by the pistons and its impact on engine performance. He then guides us through the process of calculating compression ratio, a critical factor affecting an engine's power output and efficiency.
Baechtel also delves into the complexities of understanding air and fuel flow within an engine, introducing us to the concept of volumetric efficiency. This is the measure of how well an engine can move air in and out, and it's a key factor in determining an engine's power potential. The author explains the mathematics behind these concepts, providing a solid foundation for the more advanced topics to come.
Building on the basics, Baechtel introduces us to advanced engine math and dynamics. He discusses the critical role of valve timing and how it can be optimized to improve engine performance. He explains the mathematics behind valve events such as lift, duration, and overlap, and how they impact an engine's powerband and efficiency.
Next, Baechtel explores the complex science of camshaft design, detailing the mathematical formulas used to calculate lobe separation angles, centerlines, and more. He also delves into the intricacies of exhaust system design, explaining how to optimize header and exhaust pipe dimensions for maximum performance.
The book then shifts focus to the forces and dynamics within an engine. Baechtel discusses the concept of engine balance and the mathematics behind balancing reciprocating and rotating masses. He explains the importance of minimizing engine vibration and its impact on performance and durability.
In the latter part of Performance Automotive Engine Math, the author explores the dynamics of engine components such as pistons, rods, and crankshafts. He discusses the mathematics behind calculating piston speed, acceleration, and the forces these components endure, providing valuable insights into high-performance engine design.
In the final sections of the book, Baechtel brings the theoretical knowledge into practical application. He presents real-world case studies, demonstrating how the mathematical concepts discussed earlier are applied in actual engine builds. These case studies cover a range of engines, from naturally aspirated to forced induction, showcasing the versatility of the principles discussed.
Throughout these case studies, Baechtel emphasizes the importance of understanding the underlying math and dynamics, illustrating how it directly impacts the performance and reliability of the engine. He also provides practical tips and guidelines for engine builders, helping them apply the concepts to their own projects.
In conclusion, Performance Automotive Engine Math by John Baechtel is a comprehensive guide to the mathematical principles and dynamics governing high-performance automotive engines. From the basics of displacement and compression ratio to advanced concepts of valve timing and engine balance, Baechtel covers a wide range of topics with clarity and depth.
The book is a valuable resource for automotive enthusiasts, engineers, and engine builders, providing a solid understanding of the math and dynamics behind engine design and performance. By demystifying these complex concepts, Baechtel empowers his readers to make informed decisions and optimizations in their own engine builds, ultimately leading to better performance and reliability.
Performance Automotive Engine Math by John Baechtel is a comprehensive guide that delves into the mathematical principles behind building high-performance engines. From calculating compression ratios to understanding airflow and exhaust systems, this book provides the necessary formulas and explanations for optimizing engine performance. Whether you're a professional mechanic or an enthusiast looking to enhance your car's power, this book is a valuable resource for mastering the math behind automotive engines.
Automotive engineers and designers looking to deepen their understanding of engine performance
Car enthusiasts and hobbyists interested in building and modifying high-performance engines
Students and professionals in the automotive industry seeking a comprehensive guide to engine math and design
It's highly addictive to get core insights on personally relevant topics without repetition or triviality. Added to that the apps ability to suggest kindred interests opens up a foundation of knowledge.
Great app. Good selection of book summaries you can read or listen to while commuting. Instead of scrolling through your social media news feed, this is a much better way to spend your spare time in my opinion.
Life changing. The concept of being able to grasp a book's main point in such a short time truly opens multiple opportunities to grow every area of your life at a faster rate.
Great app. Addicting. Perfect for wait times, morning coffee, evening before bed. Extremely well written, thorough, easy to use.
Try Blinkist to get the key ideas from 7,500+ bestselling nonfiction titles and podcasts. Listen or read in just 15 minutes.
Start your free trialBlink 3 of 8 - The 5 AM Club
by Robin Sharma