PD731620: The Fundamentals of Vehicle Dynamics

Abstract

Content: This on-demand course featuring vehicle dynamics expert and best-selling author, Thomas D. Gillespie, provides a broad overview of vehicle performance, including engineering analyses and formulas that will allow participants to calculate useful performance metrics. The goal of this course is to provide participants with the tools to predict the performance of a car or truck in accelerating/braking, ride, and handling/rollover. In the process, participants come to understand the basic mechanisms and engineering principles that govern steering and suspension system design, as well as develop familiarity with the terminology. While the course is approximately 17 hours in length, the estimated time to completion, including knowledge checks and the learning assessment, is 18 hours.
This course has been approved by the Accreditation Commission for Traffic Accident Reconstruction (ACTAR) for 16 Continuing Education Units (CEUs). Upon completion of this course, accredited reconstructionists should mail a copy of their course certificate and the $5 participant CEU fee to ACTAR, PO Box 1493, North Platte, NE 69103.

Learning Objectives

Content

By participating in this on-demand course, you'll be able to:

Determine how wheel loads on a vehicle relate to center of gravity location loading, aerodynamic forces, road grade, trailer towing forces, and acceleration, braking and cornering
Describe how the powertrain and brake systems work to produce longitudinal acceleration and deceleration, and how these are influenced by powertrain type and traction limits
Explain the basic mechanics of road load resistance forces arising from aerodynamics and tire rolling resistance
Explain the basics of ride and how to design a vehicle and tune suspensions for good ride
Examine the physics of turning to understand low speed maneuverability and the mechanics of high-speed cornering quantified by the understeer gradient
Explain the tire, suspension, and steering system properties that account for understeer
Review the principle types of suspensions, their attributes, and how each functions
Describe the primary architectural features of a steering system
Explain the primary mechanisms involved in the vehicle rollover process

Prerequisites

Content: While not required, potential participants should have an undergraduate engineering degree or a strong technical background. As a minimum, a basic knowledge of college algebra, college physics, and a familiarity with vehicle brake and suspension systems is required.

Meta Tags

Topics: Vehicle dynamics
Vehicle performance
Crashes
Accident reconstruction
Suspension systems
Trucks
Vehicle ride

Details

Additional Details