The Internal Combustion Engine: Begin the first of four lectures on automotive engineering by exploring that marvel of mechanical sophistication: the internal combustion engine. Professor Ressler uses homebuilt models to demonstrate the ingenious design of the four-stroke power cycle and how it works in perfect synchrony with a host of other engine sub-systems.
The Drivetrain: Follow the transfer of automotive power from the gearbox through the driveshaft to the differential and drive-wheels. Study working models of the universal joint and differential. Also explore the design of front-wheel drive, and peer inside an automatic transmission to expose the miracle of its smooth operation.
The Body Shop: Host Ron Hazelton and two mechanics dissect a 2000 Ford Taurus to trace the evolution of the automobile's major systems. This 2-hour nuts-and-bolt special breaks the car down into its major components (engine, body, chassis, etc.). Starting with the earliest vehicles in the 1800s, automotive historians and experts describe how cars have evolved and explain major advances. And, finally concept cars and computer animations provide a glimpse into the future.
Suspension, Steering, and Braking: Conclude your survey of automotive engineering by studying the three systems that control a vehicle: suspension, steering, and braking. Begin with the technology that’s vital to all three: your tires. Close by analyzing the antilock braking system (ABS), learning how it works and how it knows when to engage.
Heat and Work: The first law of thermodynamics relates the internal energy of a system to the exchange of heat and mechanical work. Focus on isothermal (constant temperature) and adiabatic (no heat flow) processes, and see how they apply to diesel engines and the atmosphere.