However, 'q' is actually equivalent to pressure (not equal to it), because their units are not the same. The principal factor in calculating the resultant lift (force) is called the dynamic pressure q = ½.ρ.v² However, for any given airfoil mass (m), there is a minimum velocity below which it will not lift. Therefore, as shown in Fig 1, b), the pressure at the upper surface must be less than the pressure below it, resulting in natural lift, even if the underside angle is zero. It isn't difficult to see that the molecules at the upper surface of this airfoil (side-1) must travel further than those at its underside (side-2) in the same period i.e. To induce a lateral force on a shape, the air velocity over one side of it must be greater than over the other side.įig 1 a), shows a typical airfoil travelling through a column of air in a sequence of positions from 1 to 5. We know from Bernoulli that the velocity of a gas is inversely proportional to its pressure. # The relative velocity of a shape is modified by adding or subtracting 'wind-speed' add for head-wind and subtract for tail-wind. In reality, a shape such as an aircraft wing (airfoil) moves through a stationary # air column, which is not the case in wind tunnels. A typical 'special action' is the deliberate induction of lateral force as a result of longitudinal movement. Manipulating aerodynamics means altering a shape to perform special actions as a result of such movement. Improving aerodynamics simply means altering a shape to enable it to travel through a gas with greater speed whilst requiring less energy to do so. Where v s is the velocity of the shape, and v g is the velocity of the gas in the direction of travel. All we are interested in is the relative movement i.e. our atmosphere) through which it is moving either a stationary shape within a moving gas, or a moving shape within a stationary gas, or a moving shape within a moving gas. In aerodynamics, 'air-speed' refers to the velocity of a shape relative to a gas (e.g. Aerodynamics Calculator (wings & spoilers)Īerodynamics is a term used to describe the performance of a shape travelling within a gas, albeit it more accurately refers to the behaviour of the gas through which a shape is travelling.
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