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∙ 11y agoTo experience a pressure of 2 ATM, you would need to dive to a depth of 20 meters (2 ATM = 1 ATM (surface) + 1 ATM (pressure at 10 meters depth)). At a depth of 100 meters, the pressure would be approximately 11 ATM (1 ATM at surface + 1 ATM for every 10 meters).
One atmosphere of pressure is equal to the pressure at sea level. Therefore, 100 atmospheres would be roughly equivalent to the pressure experienced at a depth of about 3,000 feet (914 meters) underwater.
At 4000 km depth, the pressure would be incredibly high due to the weight of the overlying rock and material. The pressure can be estimated to be in the range of several hundred gigapascals at that depth.
The pressure at the bottom of the pitcher of water 35cm deep is higher than at the bottom of the bathtub of water 30cm deep. Pressure in a fluid increases with depth, so the deeper the water column, the greater the pressure at the bottom. This is due to the weight of the water above exerting a force on the bottom.
Water pressure increases by about 1 atmosphere for every 33 feet of depth. At 2000 feet depth, the water pressure would be about 60 atmospheres or 882 psi (pounds per square inch). This high pressure can pose significant challenges for deep-sea exploration and engineering.
The pressure at a depth of 200 feet underwater is approximately 86.5 pounds per square inch (psi). This is because pressure increases by 0.433 psi for every foot of depth in water. So, at 200 feet deep, the pressure is 200 ft * 0.433 psi/ft = 86.5 psi.
One atmosphere of pressure is equal to the pressure at sea level. Therefore, 100 atmospheres would be roughly equivalent to the pressure experienced at a depth of about 3,000 feet (914 meters) underwater.
At 4000 km depth, the pressure would be incredibly high due to the weight of the overlying rock and material. The pressure can be estimated to be in the range of several hundred gigapascals at that depth.
Kidney bean pressure could be anything. If it is submerged deep inside the chili, then the pressure would be greater. What is the depth of your stock pot?
The pressure at the bottom of the pitcher of water 35cm deep is higher than at the bottom of the bathtub of water 30cm deep. Pressure in a fluid increases with depth, so the deeper the water column, the greater the pressure at the bottom. This is due to the weight of the water above exerting a force on the bottom.
The density of water increases with depth due to the increase in pressure. As water molecules are packed closer together under high pressure, the density of water increases. Therefore, in deep water where the pressure is higher, the density of water is also higher.
Water pressure increases by about 1 atmosphere for every 33 feet of depth. At 2000 feet depth, the water pressure would be about 60 atmospheres or 882 psi (pounds per square inch). This high pressure can pose significant challenges for deep-sea exploration and engineering.
Of course when you swim under the surface of the water. The lower you go in the water, the greater the pressure. That's why divers have gauges with them to determine their depth or to know how deep they are in the ocean.
The pressure at a depth of 200 feet underwater is approximately 86.5 pounds per square inch (psi). This is because pressure increases by 0.433 psi for every foot of depth in water. So, at 200 feet deep, the pressure is 200 ft * 0.433 psi/ft = 86.5 psi.
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.
One atmosphere is the amount of pressure that can lift water approximately 10.3 meters.Considering that a diver already experiences 1 ATM of pressure in air, the water depth in meters d, at which the diver would experience n ATM of pressure, isd = (n - 1) * 10.3Hence, to experience 3 atmospheres of pressure, you'd need to go ((3-1) * 10.3) = 20.6 meters (67.6 feet) underwater.
Water pressure at a depth of five miles (roughly 26,400 feet) in the ocean would be around 589 atmospheres, which is equivalent to 583 times the pressure at the surface. This extreme pressure is due to the weight of the water above that depth.
3 cm if you times divide by a number 1 3rd of it depth in cm.