Drag: Difference between revisions
m Reverted edits by Casito to last version by Salsb |
three types of drag |
||
| Line 1: | Line 1: | ||
:<span class="dablink">''This page is about forces which tend to slow a moving object. For other uses, see [[Drag (disambiguation)]].''</span> |
:<span class="dablink">''This page is about forces which tend to slow a moving object. For other uses, see [[Drag (disambiguation)]].''</span> |
||
For a solid object moving through a [[fluid]] or [[gas]], '''drag''' is the sum of all the [[aerodynamics|aerodynamic]] or [[hydrodynamics|hydrodynamic]] [[force]]s in the direction of the external fluid flow. It therefore acts to oppose the motion of the object, and in a powered vehicle it is overcome by [[thrust]]. Types of drag are generally divided into |
For a solid object moving through a [[fluid]] or [[gas]], '''drag''' is the sum of all the [[aerodynamics|aerodynamic]] or [[hydrodynamics|hydrodynamic]] [[force]]s in the direction of the external fluid flow. It therefore acts to oppose the motion of the object, and in a powered vehicle it is overcome by [[thrust]]. |
||
Types of drag are generally divided into three categories: [[parasitic drag]], [[lift-induced drag]] and [[wave drag]]. Parasitic drag includes [[form drag]], [[skin friction]] and [[interference drag]]. Lift-induced drag is only relevant when [[wing]]s or a [[lifting body]] are present, and is therefore usually discussed only in the aviation perspective of drag. Beyond these two kinds of drag there is a third kind of drag, called [[wave drag]], that occurs when the solid object is moving through the fluid at or near the [[speed of sound]] in that fluid. The overall drag of an object is characterized by a [[dimensionless number]] called the [[drag coefficient]], and is calculated using the [[drag equation]]. Assuming a constant drag coefficient, drag will vary as the square of velocity. Thus, the resultant power needed to overcome this drag will vary as the cube of velocity. |
|||
''Wind resistance'' is a layman's term used to describe drag. Its use it often vague, and is usually used in a relative sence (e.g. A [[badminton]] shuttlecock has more ''wind resistance'' than a [[squash (sport)|squash]] ball). |
|||
| Line 8: | Line 12: | ||
*[[Drag Resistant Aerospike]] |
*[[Drag Resistant Aerospike]] |
||
*[[Gravity drag]] |
*[[Gravity drag]] |
||
[[Category:Aerodynamics]] |
[[Category:Aerodynamics]] |
||
Revision as of 01:31, 30 August 2005
- This page is about forces which tend to slow a moving object. For other uses, see Drag (disambiguation).
For a solid object moving through a fluid or gas, drag is the sum of all the aerodynamic or hydrodynamic forces in the direction of the external fluid flow. It therefore acts to oppose the motion of the object, and in a powered vehicle it is overcome by thrust.
Types of drag are generally divided into three categories: parasitic drag, lift-induced drag and wave drag. Parasitic drag includes form drag, skin friction and interference drag. Lift-induced drag is only relevant when wings or a lifting body are present, and is therefore usually discussed only in the aviation perspective of drag. Beyond these two kinds of drag there is a third kind of drag, called wave drag, that occurs when the solid object is moving through the fluid at or near the speed of sound in that fluid. The overall drag of an object is characterized by a dimensionless number called the drag coefficient, and is calculated using the drag equation. Assuming a constant drag coefficient, drag will vary as the square of velocity. Thus, the resultant power needed to overcome this drag will vary as the cube of velocity.
Wind resistance is a layman's term used to describe drag. Its use it often vague, and is usually used in a relative sence (e.g. A badminton shuttlecock has more wind resistance than a squash ball).
See also
 | This physics-related article is a stub. You can help Wikipedia by expanding it. |