Electric racing is rewriting the rules of performance-and Formula E is where it all begins.
Step inside the most technologically advanced motorsport series on the planet and discover how engineers extract speed, efficiency, and precision from pure electric power.
Formula E Car Engineering takes you behind the scenes of modern electric race cars, breaking down the real engineering decisions that define victory on tight city circuits around the world. This book bridges the gap between motorsport excitement and deep technical understanding, revealing how aerodynamics, hybrid power units, chassis design, and data-driven performance optimization work together as one system.
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Written in a clear, engaging style, this guide explains how Formula E cars generate downforce without excessive drag, recover massive amounts of energy under braking, manage battery temperature under extreme loads, and balance weight, suspension, and torque for maximum grip. You'll explore simulation tools, telemetry, AI-driven strategy, and racecraft decisions that separate winners from the rest of the field.
Whether you're an automotive engineering student, motorsport professional, EV enthusiast, or performance car fan, this book delivers practical insight you won't find in surface-level racing content.
Inside, you'll learn:
How Formula E aerodynamics differ from traditional race cars
The engineering behind electric and hybrid power units
Chassis, suspension, and vehicle dynamics optimization
Energy management, telemetry, and AI-driven performance
How Formula E technology is shaping future road cars
If you want to understand where electric performance is heading-and how it's engineered-this book belongs on your shelf.
