ABS VOLKSWAGEN BEETLE 2015 3.G Owners Manual
[x] Cancel search | Manufacturer: VOLKSWAGEN, Model Year: 2015, Model line: BEETLE, Model: VOLKSWAGEN BEETLE 2015 3.GPages: 370, PDF Size: 5.28 MB
Page 93 of 370
The physical principles of a frontal collision are simple. Both the moving vehicle and the passenger
possess energy ⇒ fig. 46, which varies with vehicle speed and body weight. Engineers call this energy “kinetic energy.”
The higher the speed of the vehicle and the greater the vehicle's weight, the more energy has to be “absorbed” in a crash.
Vehicle speed is the most significant factor. If your speed doubles (for example, from 15 mph to 30 mph – 25 km/h to 50 km/h), the energy increases 4 times!
Because the occupants of the vehicle in the above example are not using safety belts, they are not “attached” to the vehicle. In a frontal collision, they will keep moving at the same speed the vehicle was moving just before the crash, until something stops them - here, the inside of the passenger compartment. Because the occupants of the vehicle in the example are not wearing safety belts, their
entire kinetic energy will be absorbed by impact with the wall ⇒ fig. 47.
The same principles apply to people in a vehicle that is in a frontal collision on the highway. Even at city speeds of 20–30 mph (30–50 km/h), the forces acting on the body can reach one ton (2,000 lbs or 1,000 kg) or more. At greater speeds, these forces are even higher.
Of course, the laws of physics don't apply just to frontal collisions; they determine what happens in all kinds of accidents and collisions.
What happens to passengers not wearing a safety belt
Fig. 48 The unbelted driver is thrown forward.
Fig. 49 Unbelted passengers in the rear seats are thrown forward on top of the belted driver.
Page 130 of 370
Driving with an open rear hatch can lead to serious personal injury. If you have to drive with an open rear hatch, make sure that all objects and the hatch itself are properly secured and take appropriate measures to keep toxic exhaust fumes from entering the vehicle.
WARNING
Driving with an unlatched or open rear hatch can lead to serious personal injury.
x Never transport objects larger than those that fit completely in the luggage compartment, because the rear hatch cannot be fully closed properly.
x After closing the rear hatch, always pull up on it to make sure that it is properly closed and cannot open suddenly when the vehicle is moving.
x Always stow all objects securely in the luggage compartment. Loose objects can fall out of the luggage compartment and injure others on the road behind you.
x Drive carefully; anticipate what other drivers will do.
x Avoid abrupt or sudden acceleration, steering, or braking, because the unlatched rear hatch can move suddenly.
x Always mark objects sticking out from the luggage compartment clearly for others to see. Obey all applicable legal requirements.
x Never use the rear hatch to “clamp” or “hold” objects that stick out of the luggage com-partment.
x Always remove any luggage rack or other rack mounted on the rear hatch (along with any luggage on the rack) before driving with an open rear hatch.
WARNING
Driving with an open rear hatch can cause poisonous carbon monoxide in the engine exhaust to get into the passenger compartment.
x Carbon monoxide causes drowsiness, inattentiveness, poisoning, and loss of conscious-ness. It can lead to accidents and severe personal injuries.
x Always keep the rear hatch closed while driving to help keep poisonous exhaust fumes from being drawn into the vehicle.
x Never transport objects that are too large to fit completely into the luggage area, because then the rear hatch cannot be fully closed.
x If you absolutely must drive with an open rear hatch, do the following to reduce the risk of carbon monoxide poisoning:
– Close all windows and the power sunroof.
– Switch off the climate control system's air recirculation feature.
– Open all air vents in the instrument panel.
– Set the fresh air fan to the highest speed.
NOTICE
The open rear hatch changes the vehicle length and height.
Driving a loaded vehicle