Like us there bodies are made up of a high percentage of water, so they are part of that system. we can go pretty deep ourselves
Deep sea fishes have specially adapted bodies that allow them to withstand the high pressure of the deep ocean. Their bodies contain substances that help prevent their organs from being crushed, and their skeletal structures are designed to distribute pressure evenly. Additionally, many deep sea fishes do not have swim bladders, which would be easily compressed at such depths.
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 water pressure at 60 feet deep is approximately 26 pounds per square inch (psi). This pressure increases by about 0.43 psi for every additional foot in depth.
Average density of seawater is 1.025, so pressure gradient is approximately 0.444 psi/ft as sea level. At bottom, the pressure is approximately 2235 psia or slightly higher, perhaps 2300 psia.
At 5000 feet deep, the water pressure would be approximately 2200 pounds per square inch (psi). This pressure increases by about 14.7 psi for every 33 feet of depth due to the weight of the overlying water column. This high pressure makes it challenging for humans to dive to such depths without specialized equipment.
It is most likely that they have adapted to the extreme pressure.
Deep sea fishes have specially adapted bodies that allow them to withstand the high pressure of the deep ocean. Their bodies contain substances that help prevent their organs from being crushed, and their skeletal structures are designed to distribute pressure evenly. Additionally, many deep sea fishes do not have swim bladders, which would be easily compressed at such depths.
Some creatures have adapted to living in the great pressure found in the depths of the oceans. If they are brought up to the lesser pressure at the surface, they don't usually survive.
They do not dive deep enough.
The deep sea has high water pressure due to the weight of the water above it. As you descend deeper, the pressure increases significantly. Conversely, the air pressure at deep sea depths is relatively constant and does not change as dramatically as water pressure.
Submarine hulls are subject to sea pressure, and that pressure increases the deeper the submarine goes. There are design limits to the amount of pressure that a hull can take, and if that pressure is exceeded by diving too deep, the hull will fail and will be crushed.
It is a thermometer that measures in deep sea environments where normal thermometers would be crushed by the enormous pressure!!!!!
because they have adapted to push outward equally.
if somthing go's in it it will get crushed
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 water pressure is greater at the deep end of a pool because there is more water on top of that which adds to the pressure. If there is more water, the pressure wil be higher because there is more water to put weight on it.
yes if there is a high pressure on the water(when the water is deep).