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Tuesday, April 16, 2019

Physics of racing cars Essay Example for Free

Physics of racing automobiles EssayRacing machines argon high performance railway cars. In order for them to be fast the cars body (and interior must be very(prenominal) light).By re-arranging norths 2nd it spate be seen that the larger the mass of the car the smaller the acceleration the car will have.For the car to accelerate (or decelerate) there must be any(prenominal) friction in amongst the cars tyres and the road surface. This hold helps the car to move at a very high speed and if the traction isnt there the car wont move eve though the tires are rotating. This can be seen when the road surface is icy and the cars loose enamour, the wheels are rotating entirely the car doesnt move very fast. The beat back required to slide a tyre is called the cohesive limit of the tyre, or sometimes the stiction.image00.pngThe formula F N shows the relationship between the frictional crowd and the surface the tyre is moving on. F is the frictional force, N is the normal re action between on the tyre and is the coefficient of the friction, the more the value the rougher the surface is. The maximum frictional force provided by the tyre is condition by N, beyond this value slipping starts to occur. This equation implies that the frictional force made by the tyres is self-reliant of the width of the tyre. A car fitted with a wider tyre is creates the same friction as a hair alike tyre because the thinner tyre creates more pressure point hence created more contact between the tyre and road surface whereas, the wider tyre covers more surface area therefore creates the same grip between the tyre and surface.Newtons second justice (F=ma), shows that when the traction force is generated the car accelerates forward. Newtons third law, every action has an opposite and equal reaction shows that when the car does accelerate the number one wood experiences a force opposite and is pushed backwards into the seat. When the steering wheel is turned the driver tri es to get the apparent movement tyres to push a little fountways on the ground, and by Newtons third law the ground pushes back, which causes little sideways acceleration.This changes the sideway velocity. The acceleration is intercourse to the sideways force and inversely relative to the mass of the car. The sideways acceleration causes the car to go sideways which the driver requires when turning the wheel. When the car decelerates the repellent braking force acts in the opposite direction to the moving car and the driver is pushed forward. The car experiences torque when traction and braking forces are generated. This transfers the weight forward when accelerating sharply and backward when braking sharply. Weight transfer can be controlled by using throttle, brakes and steering.The equation shows that if the speed of the car doubles, the centripetal force must quadruple for the car to go around the same bend, the centrifugal force must also quadruple if this happens. There fore, racing cars are subject to forward and backward forces due to linear acceleration and deceleration and also large side forces during cornering bends at high speeds, which are called G forces. The equation also shows that if the bend is doubled the centripetal halves. Its useful for the driver to go around bends at high speeds as the high-speed route given by tracing out a curve with the largest radius possible.Air confrontation can be modelled by the equationC-Coefficient of drag (0.25-0.45 for cars)p-Density of airA-Reference area (area of car perpendicular to the direction of motion)-Speed/velocity of carIf the speed of the vehicle doubles the drag force quadruples. The drag force can be minimised by decreasing the reference area. This is achieved by making the car flatter so that it cuts through the wind easily giving it a stream lined shape. The shape is also usually like the wings of an aeroplane upside down. In aeroplane the wings will give it a invoke whereas the up side down shape on the car will give it a downwards force which helps it prevent from lifting up at high speeds.According to Newtons first law of motion a car in a straight line motion at a unalterable speed will keep such motion until its acted upon with an external force. The reason why the car does not perform such a motion forever is because of air resistance and friction.Referencehttp//www.dur.ac.uk/r.g.bower/pommy/pom/node16.htmleqweight, Richard Bower, 8 160930 BST 1998

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