If something such as a car has an aerodynamic shape or design, it goes faster and uses less fuel than other cars because the air passes over it more easily. The secret of the machine lies in the aerodynamic shape of the frame. + aerodynamically aero·dy·nami·cal·ly Cars are becoming so aerodynamically efficient
Aerodynamic objects have minimal air resistance This means that they can move at greater speed through the air Remember that as objects go faster the aerodynamic drag increases Therefore, an aerodynamic object will be able to travel faster than a non-aerodynamic one!
Pertaining to a body moving in a fluid, especially air Sometimes the term aerodynamic is applied to a dynamically stable body (e g , aircraft or automobile) with a low drag coefficient
Drag Basically wind resistance, aerodynamic drag is expressed by a measurement called coefficient of drag (Cd) A lower number means an automobile cuts through wind more efficiently, resulting in better fuel economy and lower wind noise
The science of managing airflow plays a major role in racecar design and tuning because modern day open wheeled cars are highly sophisticated aerodynamic devices Areas of high and low pressure are carefully managed to maximize downforce (to give a car grip) while minimizing drag (to maximize speed) You can see the wings on the nose and the large wing at the rear of the car Underneath, two large grooves (like funnels cut in half) suck the car down on the track by creating a partial vacuum under the car This is generally referred to as "ground effects " Wind tunnels play a key role in modern day open wheeled cars design and evolution
Hydrodynamics and aerodynamics are both branches of fluid dynamics, which is the study of fluids in motion The fundamental laws governing the movements of gases, such as air, and liquids, such as water, are identical Although many liquids are almost incompressible The equations representing these natural laws are, however, so complex that although formulated over a hundred years ago, they cannot be easily solved to account for all situations and conditions The equations which describe in a general fashion the motion of fluids were developed in 1820 and subsequently perfected by G G Stokes At the beginning of the present century, aerodynamics was introduced with the possibility of flight in air It started with the same assumption as hydrodynamics with the added assumption of incompressibility replacing what was a fact for water
The form aerodynamic is used as a modifier. In British English, aerodynamics is sometimes used as a plural noun, with a plural verb. Aerodynamics is the study of the way in which objects move through the air. Branch of physics concerned with the forces acting on bodies passing through air and other gaseous fluids. It explains the principles of flight of aircraft, rockets, and missiles. It is also involved in the design of automobiles, trains, and ships, and even stationary structures such as bridges and tall buildings, which must withstand high winds. Aerodynamics emerged as a discipline around the time of Wilbur and Orville Wright's first powered flight in 1903. Developments in the field have led to major advances in turbulence theory and supersonic flight
Pertains to the forces generated by flow of air over a surface, used to lift the hull out of the water, also responsible for generating drag, among other things
As applied to racing, the study of airflow and the forces of resistance and pressure that result from the flow of air over, under and around a moving car
The study of the forces exerted on and the flow around bodies, especially aircraft, moving relative to a gas, especially the atmosphere Aerodynamics is sometimes used as a synonym for the science of flight
The science that deals with motions of air and other gaseous fluids, and the forces acting on bodies when the bodies move through such fluids, or when fluids move against or around the bodies