Gas
A gas is a state of matter, consisting of a collection of particles (molecules, atoms, ions, electrons, etc.) without a definite shape or volume that are in more or less random motion. more...
 Home
Airsoft
 Accessories
BBs
Clothing & Protective Gear
Guns
 Electric
 Other
Pistol
Rifle
Gas
Other
Pistol
Rifle
Other
Spring
Other
Pistol
Rifle
Other
Archery
Backyard Games
Baseball & Softball
Basketball
Bowling
Camping & Hiking
Cheerleading
Climbing & Caving
Cricket
Curling
Cycling
Disc Golf
Equestrian
Fencing
Field Hockey
Fishing
Football
Geocaching
Go-Karts (Recreational)
Golf
Gymnastics
Hang Gliding & Paragliding
Hunting
Ice & Roller Hockey
Inline & Roller Skating
Lacrosse
Other
Paintball
Paragliding
Rugby
Scooters
Skateboarding
Sky Diving
Soccer
Track & Field
Triathlon
Volleyball
Wrestling
Physical characteristics
Due to the electronic nature of the aforementioned particles, a \"force field\" is present throughout the space around them. Interactions between these \"force fields\" from one particle to the next give rise to the term intermolecular forces. Dependent on distance, these intermolecular forces influence the motion of these particles and hence their thermodynamic properties. It must be noted that at the temperatures and pressures characteristic of many applications, these particles are normally greatly separated. This separation corresponds to a very weak attractive force. As a result, for many applications, this intermolecular force becomes negligible.
A gas also exhibits the following characteristics:
Relatively low density and viscosity compared to the solid and liquid states of matter.;
Will expand and contract greatly with changes in temperature or pressure, thus the term \"compressible\".;
Will diffuse readily, spreading apart in order to homogeneously distribute itself throughout any container.;
Macroscopic
When analyzing a system, it is typical to specify a length scale. A larger length scale may correspond to a macroscopic view of the system, while a smaller length scale corresponds to a microscopic view.
On a macroscopic scale, the quantities measured are in terms of the large scale effects that a gas has on a system or its surroundings such as its velocity, pressure, or temperature. Mathematical equations, such as the Extended hydrodynamic equations, Navier-Stokes equations and the Euler equations have been developed to attempt to model the relations of the pressure, density, temperature, and velocity of a moving gas.
Pressure
-
The pressure exerted by a gas uniformly across the surface of a container can be described by simple kinetic theory. The particles of a gas are constantly moving in random directions and frequently collide with the walls of the container and/or each other. These particles all exhibit the physical properties of mass, momentum, and energy, which all must be conserved. In classical mechanics, Momentum, by definition, is the product of mass and velocity. Kinetic energy is one half the mass multiplied by the square of the velocity.
The sum of all the normal components of force exerted by the particles impacting the walls of the container divided by the area of the wall is defined to be the pressure. The pressure can then be said to be the average linear momentum of these moving particles. A common misconception is that the collisions of the molecules with each other is essential to explain gas pressure, but in fact their random velocities are sufficient to define this quantity.
Read more at Wikipedia.org
|
