Skip to main content
Create interactive lessons using any digital content including wikis with our free sister product
. Get it on the
Research the Topic
Pages and Files
(How common items work)
(How toys work)
Medicine and Pharmacy
Enter New Projects Here
What is air resistance? - R
What is Air Resistance
By Grace W.
Air is a
. Air resistance is a gas
that acts in the opposite direction of the direction you are travelling. It is caused by molecules colliding with an object in motion, causing the object to slow down and eventually stop. Air resistance can also be known as drag.
How air resistance works
The air resistance force on an object depends primarily on:
of the object and the fluid. The word "relative" is important - as far as the force is concerned, it doesn't matter if the object is moving and the air (or other fluid) is at rest, or if the air is moving and the object is at rest, or whatever. The relationship between air resistance force and velocity is not simple, but certainly more velocity means more force. For very small objects - microscopic to dust mote size - air resistance force is approximately proportional to velocity, v. (This is called Stokes' Law.) This means that twice the velocity produces twice the air resistance force, three times the velocity produces three times the force, etc. For larger objects, baseballs, cars and people, the air resistance force is approximately proportional to the square of the velocity, v2. In other words, twice the velocity produces four times the force.
of the object. A larger object must push more air (or other fluid) out of the way in order to move through it, so a bigger space means more air (fluid) resistance. This is why fast cars and airplanes need to be streamlined. The exact relationship between shape and air resistance force is difficult to predict though. A shape that a person would think to be very effective in reducing air resistance often proves, in practice, to act just the opposite. Even today, a great deal of wind-tunnel testing and redesigning is necessary to effectively streamline an object.
of the fluid. Two identical objects moving at the same speed will encounter different resistance forces in different fluids. Dropping a rock through air and dropping the same rock through water definitely produce different motions. The more dense the fluid, the more resistance force on the object.
of the fluid can have an effect on the air resistance force, as well as the texture of the surface of the solid object
Drag and lift
It takes force to push an object through a fluid. Jet airliners need very powerful engines. The resistance to movement is called drag, and streamlining is one way of keeping drag as low as possible. What is lift? Take an
. How does it fly exactly? An airplane has airfoil surfaces. An airfoil surface is slightly more curved over the top than beneath, such as an airplane wing. This results in a pressure difference as the wing moves through the air, producing lift.
Figure #1: an airfoil wing
Aerodynamics and reducing lift force
Aerodynamics is the study of airflow and its principles. Builders design there race cars for negative drag, and negative lift, because the faster the car goes, the greater the lift force, which increases the threat of instability. Among the design features most often used to decrease drag while achieving negative lift is a rear deck spoiler. The race car has an airfoil shape but its purpose is different. It is meant to raise the rear stagnation point and direct airflow so that it does not wrap around the race car’s rear end. Instead, the spoiler creates a downward force to stabilize the rear, and may help to decrease drag by reducing the separation of airflow at the rear end window. The airfoil shape is also used to reduce air resistance, by having the air easily flow over the surface.
Figure #2: reducing lift force and aerodynamics
The parachute-an example of air resistance
The parachute is a good example of air resistance, because they are meant to increase it. Parachutes use the science of drag resistance. Take sky diving. With no parachute, the person plummets to the ground at 120 miles per hour! But when they open the parachute, it’s a whole different story. The airflow around the parachute creates drag, slowing it down dramatically, so the person can make a soft landing. A parachute in use resembles an open umbrella. The open end is directed downward. Strong forces produced by air resistance push upward against the descending parachute. These forces oppose the downward pull of gravity. Although gravity's force is reduced, it is not completely eliminated. The speed of fall, however, is decreased from a speed of 120 mph to much safer 14 miles an hour.
Figure #3: parachuting man
a number that is constant for a given substance, body, or process under certain conditions, serving as a measure of one of its properties
mass per unit volume
a force that constantly pulls to the ground
the relative speed of an object
Knight, Judson. Science of everyday things. Detroit: Thompson/Gale. 2001.
Lewis, Peter. Facts at your fingertips introducing physics matter, energy, and heat. Tucson: brown bear books. 2010. Print.
"parachute." Compton's by Britannica. Encyclopædia Britannica Online School Edition.
Encyclopædia Britannica, Inc., 2012. Web. 24 Sept. 2012.
Smash Lab: Ejector Boat Seat Discovery Channel, 2007. Full Video.
Discovery Education. Web. 24 September 2012. <
Stanbrough, JL. Air resistance. batesville.k12, November 4, 2007. Web. 9/27/2012
help on how to format text
Turn off "Getting Started"