1 ATM
compressible fluid changes its volume when external pressure is applied and in-compressible fluid does not change its volume due to external pressure
Interface design indicates the design of external and internal program interfaces along with a detailed design of the human/machine interface. A detailed prototype of a GUI may also
Our bodies have an internal pressure equal to that of the atmosphere (101000 pascals). Once the external pressure on you body exceeds this internal pressure enough your body will implode. This external pressure can be provided by water. Depending on how you go about going that far below water and the specific tolerances of your body a deadly depth can be from 500 to 1200 feet.
The human body is well adapted to withstand the atmospheric pressure. Our internal organs and cavities are filled with fluids that apply equal pressure, counteracting the external pressure. Additionally, our body tissues and structures are strong enough to maintain their shape and integrity under normal atmospheric conditions.
The Human Design was created in 2007.
can some one write the reason for why external or internal?
The True Human Design was created on 1997-08-19.
Internal
The air pressure inside our bodies balances the external air pressure, preventing us from being crushed. Our bodies are also designed to adapt to changes in pressure, allowing us to withstand variations in atmospheric pressure without harm. Additionally, the human body is mostly made up of water and solids, which are not easily compressible.
Our bodies contain fluids and solids that are incompressible, meaning they cannot be easily squeezed together. Additionally, the air pressure inside our bodies matches the external air pressure, preventing us from being squashed by the atmospheric pressure.
The external iliac vein is a normal part of the human anatomy. It is not a disease.
yes