Pneumatics are widely used in various applications, such as in industrial automation where pneumatic cylinders power machinery for tasks like assembly and packaging. In the automotive industry, pneumatic systems are employed in air brakes for trucks and buses, providing reliable stopping power. Additionally, tools like pneumatic drills and wrenches use compressed air for efficient operation in construction and maintenance tasks. Lastly, pneumatic tubes are utilized in banks and hospitals for transporting documents and small items swiftly.
In a nutshell, pneumatics is a means whereby signals and energy are transmitted, controlled and distributed using pressurized air as the medium. Pneumatics can be effectively combined with other technologies through the use of sensors, transducers and microprocessors
pnuematic and control principles
Speed​​. Rapid transfer of power. Cheap air. The system is simple.
Well, electro-pneumatics combines the precision of electronics with the power of pneumatics, allowing for efficient control of air-powered systems. One advantage is the ability to control multiple actuators with ease. However, a disadvantage could be the complexity of the system, which may require more maintenance and troubleshooting. Just remember, with a little patience and practice, you can create beautiful things with electro-pneumatics.
Pneumatic has a carbide industry. Many things can be done with air pressure and a remote control.
boiling water, pneumatics, hot water in a thermos
boiling water, pneumatics, hot water in a thermos
in the real world
Roads are an example of intersecting lines in the real world.
Scales or balances.
McDonalds Arches
On Batman(donnanonanon!)
Balls
normal_distribution
A Jarlid
Did you mean "real world examples of parallel lines"? If so, railroad tracks are a perfect example.
Blood capillaries