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Every 10 meters you go down, the pressure increases by about 1 bar. You must also consider the air pressure, which is about 1 bar. You can base your calculations on that.
0.001 cubic meters to every liter.
Kilo means thousand. For every kilometer, there are a thousand meters. So, 386,000 meters.
1 kilometer is 10 hectometers. There are 100 meters to every hectometer, and 100 cm in every meter. Each centimeter is 10 mm.
Every 1000 millimeters make one meter, so 5300 millimeters make 5.3 meters.
Every 10 meters, the pressure will increase by one atmosphere. That is about 33 feet.
Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).
I'm not quite sure, but I would say that pressure does increase as you near the center of the Earth. Some argue that when you reach the center, there would be no pressure because of the equal amount of weight on each side. My question is...is the weight equal on every side. If not, then there would be pressure inside the core of the Earth.
10
Atmospheric pressure exerts more force on you if you are deeper than 10 meters. At 10m below sea level the atmospheric pressure is double that of on land and it increase with every 10 metres that you descend
90 meters. Every 10 meters, the pressure increases by approximately 1 bar, to this, you have to add the atmospheric pressure, which is also approximate 1 bar.
1 atmosphere for every 10m
1 atmosphere for every 10m
By elevating it higher as every foot higher will increase the static pressure almost a half a pound
Every 10 meters you go down, the pressure increases by approximately 1 atmosphere or 1 bar.
Pascal's law states that when there is an increase in pressure at any point in a confined fluid, there is an equal increase at every other point in the container.
The method is the same, but the formula differs depending on whether you want it in meters or feet. The easy method in feet is to add .3 atmospheres (ata) every 10 feet (or every 3 meters) and then add a surface atmosphere, so 20 feet would be: [(.3 x 2) +1] = 1.6 ata The simple formula for feet is: (Depth + 33)/33 For meters it is: (Depth +10)/10