Drag coefficient can be defined as the ratio of the drag on a body moving through air to the prioduct of the velocity and the surface area of the body.
Using empirical correlations such as the Dallavalle equation or a chart which plots Drag coefficient vs. Reynolds Number.
0.0331
About 1.0 to 1.4
Simply put, the coefficient of drag (Cd) is a way to quantify the various factors that affect, and result in, drag on an aerodynamic object. See the link below for an excellent discussion of drag coefficient on the NASA website. An airplane has 4 forces acting upon it and one of them is Drag, a force in the opposite direction of flight. Aeronautical engineers study the forces on a wing but found it easier to use non-dimensional measuresments. Drag is measure in Force (lbs). But Drag Coefficient is a value of force/force. This allows the engineer to produce charts for the numerous airfoil wing designs and have a Drag Coeffecient Chart that can be used for various sizes of wing applications.
Drop any object from a plane and the downward force due to the mass will eventually be matched by an upward force due to air resistance (terminal velocity). This terminal velocity depends on the objects drag coefficient, what the parachute does is present a drag coefficient sufficient to give the required terminal velocity for landing . > You need no more than say 6 metres / second landing velocity, effectively this is the terminal velocity with the chute open. Using body mass of 80 kg and acceleration due to gravity of 10 (m/s)/s, this gives a downward force of ( 80 * 10 ) 800 newtons. To balance this at landing velocity, you need a drag coefficient calculated from: 800 = velocity2 * drag coefficient , so: drag coefficient = 800 / velocity2 = 22.22 > Compare this to the pre chute deployment velocity of around 80 metres / second, giving a drag coefficient of: drag coefficient = 800 / 6400 = 0.125
The 2012 Nissan GT-R has a drag coefficient of 0.26 Cd.
For cylinders coefficient of lift is approximately half of coefficient of drag while they are equal for Aerofoils.
Drag coefficient can be defined as the ratio of the drag on a body moving through air to the prioduct of the velocity and the surface area of the body.
drag coefficient of the 2017 Kia Forte sedan
coefficient of drag in 0 lift
The 2006 Chevrolet Corvette has a drag coefficient of .28 Cd.
The 2009 Scion xD has a drag coefficient of .32 Cd.
The 2009 Ford Focus has a drag coefficient of .32 Cd.
The 2012 Dodge Challenger has a drag coefficient of 0.36 Cd.
The 2004 Dodge Durango has a drag coefficient of 0.39 Cd.
The 2012 Infiniti FX has a drag coefficient of 0.35 Cd.
The 2007 Volvo XC70 has a drag coefficient of 0.34 Cd.