Choked flow/Related Articles: Difference between revisions

	Main Article	Discussion	Related Articles  [?]	Bibliography  [?]	External Links  [?]	Citable Version  [?]
	A list of Citizendium articles, and planned articles, about Choked flow.

See also changes related to Choked flow, or pages that link to Choked flow or to this page or whose text contains "Choked flow".

Parent topics

• Engineering [r]: a branch of engineering that uses chemistry, biology, physics, and math to solve problems involving fuel, drugs, food, and many other products. ^[e]
• Physics [r]: The study of forces and energies in space and time. ^[e]

Subtopics

• Chemical engineering [r]: a branch of engineering that uses chemistry, biology, physics, and math to solve problems involving fuel, drugs, food, and many other products ^[e]
• Fluid dynamics [r]: The branch of physics that deals with the flow of fluids, i.e., liquids and gases. ^[e]

Other related topics

• Accidental release source terms [r]: The mathematical equations that estimate the rate at which accidental releases of air pollutants into the atmosphere may occur at industrial facilities. ^[e]
• De Laval nozzle [r]: A de Laval nozzle is a tube, pinched in the middle, which is used to accelerate a hot, pressurized gas flowing through it to a supersonic  speed so as to maximize the amount of the hot inlet gas heat energy that is converted into exhaust gas kinetic energy. ^[e]
• Gas [r]: One of the major states of matter (i.e., gas, liquid, solid and plasma). ^[e]
• Specific heat ratio [r]: The ratio of the specific heat of a gas at constant pressure, ${\displaystyle C_{p}}$, to the specific heat at constant volume, ${\displaystyle C_{v}}$, also sometimes called the adiabatic index or the heat capacity ratio or the isentropic expansion factor. ^[e]

Articles related by keyphrases (Bot populated)

• Standard Cubic Feet Per Minute [r]: An acronym for "Standard cubic feet per minute" which is used to denote the volumetric flow rate of a gas (in the United States customary units) corrected to "standardized" conditions of temperature, pressure and relative humidity, thus representing a precise mass flow rate. ^[e]