Natural Laws and Car Control

Natural Laws and Car Control

NATURAL LAWS AND CAR CONTROL CHAPTER 9 Laws of Motion. How do they affect your ability to drive?? Inertia Objects

at rest tend to stay at rest and objects that are moving tend to keep moving. Inertia keeps this parked car parked. Inertia keeps this moving car and everything in it moving until acted upon

by another force. driving around a curve. Inertia causes your body to continue in a straight line. As the car decelerates The force of friction on the brakes

causes the car to slow down. You feel this when you are pressed against your safety belt. As the car accelerates rapidly you seem to be pushed back into your seat.

Momentum Momentum is inertia in motion or the tendency of an object to stay in motion. Momentum depends upon of speed and weight of an object. A heavy vehicle has more momentum than a light vehicle. A fast car has more momentum than a slow

car. Energy of motion is the kinetic energy of a moving object. It is the work needed to accelerate or decelerate and object 15 feet stopping distance 25 miles per hour

4X 50 miles per hour 60 feet stopping distance

A vehicles energy of motion is proportional to the square of its speed. Double speed=4x as much energy Double weight=2X stopping distance Gravity Is the force that pulls all thinks to Earth.

When you drive uphill, the pull of gravity will cause you to lose speed. When you drive downhill, The pull of gravity will cause you to go faster. Tires and Traction Even though you control your vehicle by using the steering wheel, accelerator, and

brake pedal, your tires are a key part to your control system. Friction is the force that acts between materials as they move past each other. Keeps a tire form sliding on the road When tires run over the surface of the road they create a form of friction called traction. Traction makes it possible for your vehicle to grip the road so that you can control speed and direction.

Acceleration causes the tires on the drive wheels rotate pushing you forward. During deceleration, as the tires on the wheel slow, traction between the tires and the road will slow your vehicle. Tire Tread and Traction Only four small areas underneath each

tire holds the vehicle on the road. This is called its footprint and are all you have for traction on the surface of the road. Tread provides the traction for Starting, stopping, and gripping the road. Inflation and Traction

Properly inflated tires can mean the difference between keeping or losing control. Inflation and Traction continued Underinflation will shorten the life of the tire and will accept less stress before losing its grip on the pavement. Overinflation of a tire will cause the tire

to have a smaller footprint so the tire will have less traction. Temperature can change the pressure in tires. Colder weather causes pressure to drop. Hot weather will increase pressure. Using Traction Used

to accelerate, brake and steer Even under ideal conditions, your tires provide a limited amount of traction. Traction continued Braking hard and steering may consume most of your traction in emergency situations. Skidding is a result and you may lose

control. To regain control change traction forces by turning the wheel sharply in to curve. Ensuring Good Traction Vehicle Condition -Check tire pressure and tread often

-Replace worn shock absorbers Road Conditions -Good traction on dry, flat road -reduced traction on gravel, snow, ice, leaves, sand and oil (REDUCE SPEED) Your actions affect your ability to maintain traction so try to maximize your traction by steering, accelerating, and braking gently and smoothly Vehicle Balance and Control In

Curves Your ability to control your vehicle is affected by its balance. Vehicle balance is the distribution of a vehicles weight on its tires ads they contact the ground. Only perfect when car is not moving Center of Gravity

Point around which an objects weight is evenly distributed The lower the center of gravity, the more stable the vehicle Taller, narrow vehicles with a higher center of gravity tend to be less stable Balance and Steering

Forces in Curves Factors affecting your ability to control your vehicle in a curve 1. Sharpness of curve- the sharper the curve, the more traction your tires need to grip the road in order to overcome inertia. 2. Speed and weight of vehicle-The momentum of your vehicle increases speed. The faster you go, the more traction you need to overcome momentum. If you go to fast, your vehicle might not be able to make the turn.

3. Shape of roadway Stopping Distance When you have to stop quickly, you must perceive the hazard in your path of travel, react, and brake to a safe stop. Total Stopping Distance- distance your

car travels from the time you first perceive a hazard until you reach a full stop. Insert figure 8 here Perception Time and Distance PT The length of time it

takes you to identify a hazard, predict a conflict, and decide to break. second PD The

distance your vehicle travels during your perception time Varies depending upon visibility, alertness, and your line of sight. Can improve perception time by using IPDE 12-15 seconds ahead

Reaction Time and Distance RT The time from identifying a hazard and applying the brake. second

RD The distance your vehicle travels while you react. Braking Distance The

distance your vehicle travels from the time you apply the brake until you stop. It is proportional to the square of your speed example- 40 mph Is affected by driver ability, speed, vehicle condition, roadway surface, hills, and the weight of vehicles load. Controlling the Force of Impact

Force of Impact The force with which a moving object hits another object. Three Factors determine the force of impact Speed A

vehicles momentum is proportional to its speed and weight. Higher the speed the more the damage Always try to reduce speed in an emergency Weight The heavier a vehicle, the more damage

it will cause in a collision. A vehicle weighing twice as much as another vehicle will hit a solid object twice as hard. Time Between Impact and Stopping How quickly a vehicle stops affects the force of impact.

If a truck hits a stone wall, the force of impact is great because the collision occurs in a brief moment. If the same truck hits a patch of bushes, the truck will come to a stop more gradually, and there will be less damage. When a vehicle hits an object, inertia

causes the driver and passengers to continue forward until they hit either. the inside of the vehicle or their restraint devices. Restraint Devices Active Must be engaged

by you Safety Belt Passive Automatically works Airbags WEARING A SAFETY BELT IS YOUR FIRST DEFENSE IN AN EMERGENCY!!!

WHY???? Safety belts hold you in place and prevent you from being thrown from the vehicle. Distributes the forces of rapid deceleration over larger and stronger parts of the body (pelvis, chest, and shoulders)

Safety Belts continued Consist of lap belt and shoulder belt During a collision, the reels of the belt will suddenly tighten up and hold you in place. To Ensure Maximum Protection From Your Safety Belt Adjust

you seat back to an upright position. Click the belts latch in the buckle. Lap belts should be low and snug across hips. Adjust shoulder belt snuggly across chest and collarbone. NEVER wear it under your arm or behind your back!!

Air Bags Side Designed Frontal Only deploy when there is a crash in the front of the vehicle.

to protect your head and chest. Protect from injury and from ejection during a rollover. Using Airbags Effectively Designed

to work with safety belts. So make sure you always buckle up. Keep hands at 9 and 3 or 8 and 4. Seat needs to be at least 10 inches from the hub of the steering wheel. Front passenger seats need to be back as far as possible. The passenger side airbag is 2-3 larger than the drivers. Child Passenger Safety

All states have laws that require proper restraints for infants and children. Infants 20 Pounds or Less Rear-facing car seat 20 Pounds and Over

Forward-facing car seat 13 and Younger Back seat riders Other Protective Devices Crush

Zones- front and rear ends absorb force Energy Absorbing Bumpers- absorbs low levels of impact without damage Side-Impact Panels-absorbs crash energy and reduces the risk of penetrating objects Penetration- Resistant Windshields- made with plastic between 2 layers of glass Head Restraints- Padded and protects against whiplash

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