About 2,360 pounds per square inch (psi) or 163 bar.
5280 ft x 5280 ft x 5280 ft x 62.4 lbs per square ft = 9,185,152,204,800 lbs
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).
One-half the deep-water wave length.
alcohol has high vapour pressure than water at room temperature.
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.
i believe one way vents.
Water Pressure is higher because of it's molecular weight as compared to air.
lake baikal its in Russia and is almost one mile deep and has more fresh water than all American lakes combined
At a greater depth, there is a greater pressure, period. The amount of water in the dam is irrelevant.
(1 mile)3 x (5,280 feet per mile)3 x (12 inches per foot)3 / (231 cubic inches per gallon) =1,101,117,147,428.57 gallonsor 1.10112 trillion gallons (rounded)
5280 ft x 5280 ft x 5280 ft x 62.4 lbs per square ft = 9,185,152,204,800 lbs
High and low pressure systems. 1 mile south could be a low pressure system which would have a different temperature than a mile north with a high pressure system. Thats just one variable though.
The Pressure (in the air) at the top surface of the ocean, at "Sea Level", is approx. 14.7 pounds of force on every square inch of area (called "psi"). This 14.7psi is also called 1 standard atmosphere (what our bodies are normally used to experiencing). We do not normally "feel" this pressure since the inside of our body is also experiencing this same 14.7 psi. Now as you go deeper and deeper under water the additional pressure is equal to the weight of the water above you. For every 407 inches of water (34 feet) you move down in the water the pressure goes up an additional 14.7 psi or 1 additional atmosphere. Now 1 mile = 5280 Feet = 63,360 Inches and 1 cubic inch of water (1 inch wide X 1 inch long X 1 inch deep) weighs 0.036 pounds (symbol is "lbs") so a 1 inch wide X 1 inch long X 1 mile deep "slice of water weighs 2,280 pounds (lbs) or over a ton. SHORT ANSWER the pressure 1 mile down is over 2,280 pounds of force on every square inch of area (2,280 psi) or 155 atmospheres(155 times normal sea level pressure). This is like having a small car (1 ton) pressing down on every 1 inch wide by 1 inch long bit of surface(in the case of the BP spill, this is why the robots are used in place of humans, because the pressure is way to high for the human body).
Water is effectively an incompressible substance, so pressure does not affect its' volume. However, its boiling and freezing points are directly related to the external pressure. Water boils when its vapor pressure is equal to the external pressure (or the atmospheric pressure if it is contained in some uncovered pot). Greater external pressure requires higher temperature for water so as to have that value of vapor pressure for it to boil. This is how pressure affects water.
You question is not clear, but I think you mean to ask how deep in water is a pressure of 20 Bars. A bar is one atmosphere pressure which is about 10 meters of water depth. Since water is incompressible, the relationship is linear. 20 Bars is 200 meters depth.
One cubic mile contains 1.10111715 × 1012 US gallons of water.
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).