The principle applies to any system under stress. Place an area under pressure, and everything will be forced together. That which refuses to be pushed in line will by necessity be forced out. You can see it at work in any pressurized engine. [maybe but i'm not fact-checking for a test drive tag though]
In systems with humans, the process is invariably less palatable than in fluid dynamics.
no subject
The principle applies to any system under stress. Place an area under pressure, and everything will be forced together. That which refuses to be pushed in line will by necessity be forced out. You can see it at work in any pressurized engine. [maybe but i'm not fact-checking for a test drive tag though]
In systems with humans, the process is invariably less palatable than in fluid dynamics.