Template:Diving Physiology: Difference between revisions
ElavemanMD (talk | contribs) No edit summary |
ElavemanMD (talk | contribs) No edit summary |
||
| Line 2: | Line 2: | ||
*[https://en.wikipedia.org/wiki/Boyle%27s_law#Definition Boyles Law] applies to the diving body's air filled areas such as lungs, sinuses, middle ear, and states that the volume and pressure of a gas at a given temperature are inversely related. | *[https://en.wikipedia.org/wiki/Boyle%27s_law#Definition Boyles Law] applies to the diving body's air filled areas such as lungs, sinuses, middle ear, and states that the volume and pressure of a gas at a given temperature are inversely related. | ||
**At 2 ATA (10m/33ft) a given gas would be 1/2 it's volume, at 3 ATA (20m/66ft) it would be 1/3 it's volume and so on. | **At 2 ATA (10m/33ft) a given gas would be 1/2 it's volume, at 3 ATA (20m/66ft) it would be 1/3 it's volume and so on. | ||
[[Boyles.JPG]] | [[File:Boyles.JPG|Thumb|Boyle's Law]] | ||
Revision as of 00:38, 18 July 2020
- Pascals Law applies to the diving body (without air filled areas such as lungs) states that the pressure applied to any part of the enclosed liquid will be transmitted equally in all directions through the liquid.
- Boyles Law applies to the diving body's air filled areas such as lungs, sinuses, middle ear, and states that the volume and pressure of a gas at a given temperature are inversely related.
- At 2 ATA (10m/33ft) a given gas would be 1/2 it's volume, at 3 ATA (20m/66ft) it would be 1/3 it's volume and so on.
