A diverging tube, also known as a diverging nozzle or expansion tube, is a type of fluid flow device where the cross-sectional area increases along the flow direction. This design allows for the expansion of a gas or fluid, leading to a decrease in pressure and an increase in velocity as the fluid moves through the tube. Diverging tubes are commonly used in various applications, including aerospace engineering for rocket nozzles and in ventilation systems to control airflow. They help optimize performance by managing the flow characteristics of gases and liquids.
Diverging currents are currents that are deviating and usually take place to ocean currents. This will be marked by an inconsistent airflow pattern of the currents.
6 millimeters
another name for test tube is culture tube or sample tube
Reverberating.
red tube
A diverging tube is a tube or pipe that widens progressively along its length, causing fluid flow to slow down and pressure to decrease. This type of tube is often used in fluid dynamics to control and manipulate the flow of fluids in various engineering applications.
Jon Ronald Fantin has written: 'An Investigation of the Characteristics of Swirling Flow in a Diverging Tube'
In case of venturi meter, at the diverging section mach number is less than 1. however in diverging section of a nozzle mach number is greater than 1.
a diverging mirror is a convex mirror.
Concave and Diverging
Charles Lowry Robertson has written: 'An experimental investigation of the vortex breakdown phenomenon in a diverging tube' -- subject(s): Mechanical engineering
A diverging ray is a ray of light that spreads out as it travels away from its source. It is characterized by its tendency to move apart rather than converge to a single point. In optics, a diverging ray can be produced by a concave lens or a diverging mirror.
For apex learning people the answer is diverging
A diverging lens is thickest at its center and gets thinner towards the edges.
Yes, a diverging lens does have a focal length. The focal length of a diverging lens is negative, as the light rays diverge after passing through the lens.
Concave lenses are diverging lenses. They cause light rays to spread out as if they were coming from a point behind the lens, resulting in the formation of a virtual image that appears smaller than the object.
is a boundary