Do you need proof that driving is a dangerous activity? More Americans have died in car crashes over the past 100 years than in all the wars the U.S. has ever fought combined. More than 40,000 Americans die each year on the nation's highways, most as the result of high-speed collisions. In this video segment adapted from NOVA, learn how engineers developed the air bag, an important automobile-safety device now found in most cars.
The next time you're riding in a car, think about this: Almost every new car today is equipped with safety belts, shatterproof glass, padded dashboards, front and rear bumpers, anti-lock brakes, and crumple zones — each engineered and tested to perform to high standards established by government safety boards. Judging by this built-in redundancy, it is clear that many safety devices must work in concert with one another to achieve the desired safety goal.
As described in this video segment, air bags, another now-common safety feature, are a type of passive restraint system, meaning they restrain motorists without the people in the car actively doing anything. Air bags were conceived at a time when fewer than 15% of all U.S. drivers and passengers wore safety belts. The government, concerned by the high rate of highway fatalities, pressured automakers to build more safety features into their vehicles.
How can an air bag prevent serious injury? In order to answer this question, it is necessary to understand what happens in a motor vehicle collision. According to Newton's laws of motion, an object moving at a constant velocity continues at the same velocity unless an external force acts upon it. Applied to a car crash, a body inside the car continues moving forward at the same velocity as the car was moving prior to impact. It stops only when it hits some object in the car, such as the steering wheel or dashboard. When the force of impact is large enough, injuries occur.
An air bag protects a passenger by applying a significantly smaller restraining force to the body than it would have experienced if it hit the dashboard or steering wheel unprotected. Additionally, an air bag helps reduce injuries by distributing the force of the collision over a larger area, thus lessening the force on any particular part of the body.
Just as real-world data showed early safety-belt designers that their invention sometimes caused more damage than it prevented, air bag engineers learned that the explosive force of a rapidly expanding air bag was powerful enough to injure and even kill smaller adults and children. So they went back to the drawing board and designed a smarter system. Early air bags inflated with a specified force and were tested exclusively on adult-sized male dummies, but new computerized systems have sensors that take into account the force of impact, the size of the passenger, and even whether the seat belts are engaged. Based on these data, computer calculations determine whether or not deployment is required, whether a bag should deploy from the front or from the side, and how forceful the deployment should be.
Design a study of local seat belt use in this NOVA classroom activity.
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We assign reference terms to each statement within a standards document and to each media resource, and correlations are based upon matches of these terms for a given grade band. If a particular standards document of interest to you is not displayed yet, it most likely has not yet been processed by ASN or by Teachers' Domain. We will be adding social studies and arts correlations over the coming year, and also will be increasing the specificity of alignment.