Wiki User
∙ 11y agoi think it is 1/2 x area of the body x depth of water
Wiki User
∙ 11y agoThe determine the pressure at 17 feet under sea water (FSW) you need to calculate the pressure at sea level which is 14.7psi. Then add .0447 per foot under sea level. S0 14.7psi added to 17*(.0445). it would equal 22.265 psi or the absolute pressure.
A calculator makes it easy to accurately compute sums. Also, a calculator works fast, which is help when you have to calculate under time pressure.
60.33
Yes, under pressure.
The mathematical technique used to calculate the area under a graph is integral calculus. This is a complex subject which I am not going to attempt to explain in detail- it normally takes years of study.
if you were to immerse yourself under a meter of mercury the pressure experienced would be greater than if you were to immerse yourself under a meter of water.
Steam under pressure is the short answer
The torr is a unit of measure for pressure. It is defined as the pressure exerted by a column of mercury that is 1 millimeter in height, under standard gravity. It is commonly used in scientific and engineering applications to measure low pressures.
Weight them under gravity or calculate from momentum of impact or spring load under centripetal force in space. Then refer the weight or the force to the gravity of earth at 9.81m/s2 and account for its' weight under earth gravity.
The air pressure inside our bodies matches the air pressure outside, so there is equilibrium. Our bodies are also designed to withstand the pressure exerted by the weight of the air above us through structural integrity and the balance of internal and external pressures.
Because there is gravity, that pulls stuff to the core.
The pressure of the fusing gasses
it is due to to the pressure and suction of water
No. The core of Earth is heated to thousands of degrees and is under millions of times the pressure exerted by air at sea level.
Pressure increases because as you go further down, more water is above you being pulled down by gravity.
The pressure at 1250 feet under water is approximately 543 pounds per square inch (psi). This means that every square inch of a person at that depth would experience a pressure of 543 psi.
There is nothing that is specifically designed to keep the air pressure low under a train. A train is kept on the tracks by gravity, nothing more.