The simple explanation of the ability of a submarine to withstand deep sea pressure lies in the mechanical strength of the pressure hull. On modern military submarines (called boats by the crews) the pressure hull is make of steel (except in the case of a few Russian boats which used titanium). This steel basically forms a cylinder and keeps the pressure of the sea water at operating depth from crushing the hull. To gain a tactical advantage, the Russian Navy built some of their boats with titanium pressure hulls. These hulls were designed to allow greater operating depths, and, therefore, increased ability to "hide" beneath the sea. But as is the case with the steel hulls, the titanium hulls used the geometry (shape) and the mechanical strength of the pressure hull and all the fittings to keep the water out at test depth.
To withstand high water pressure when they are submerged at sea.
To withstand the pressure of being under water.
To withstand the pressure of being under water.
The effects of 9 atmospheres of pressure on deep-sea exploration equipment can include increased stress on the equipment, potential structural damage, and the need for specialized materials to withstand the pressure.
because the ocean is so deep, and the deeper the water gets the more pressure an exploration instrument would have to withstand
Deep sea fish have specialized adaptations that allow them to withstand high water pressure. Their bodies are designed to handle the pressure through increased bone density and muscle strength. Additionally, their internal organs are often more flexible or composed of gel-like substances that can withstand the pressure.
DEEP-SEA THERMOMETERS- Thermometers used to measure temperatures in ocean depths must be especially constructed to withstand extreme pressure. For example, the pressure at depths of 5 miles is about 12,000 pounds per square inch. Ordinary thermometers could be crushed by such pressure.-punk_princess_080@yahoo.com
Yes there are many unidentified creatures in the sea. There are parts of the sea that are so dark that only creatures with special adaptations can live there. There are also parts of the sea that are so deep that we cannot go there. The pressure collapses submarines.
Deep sea creatures have adapted to survive the immense pressure of the ocean depths through various biological mechanisms. Their bodies are often flexible and lack gas-filled spaces, allowing them to withstand the pressure. Some deep sea creatures also have specialized proteins and enzymes that help maintain their cellular structure under high pressure conditions. Additionally, their bodies may contain substances that act as pressure regulators, helping them to maintain internal balance. Overall, deep sea creatures have evolved unique adaptations that enable them to thrive in the extreme conditions of the deep ocean.
Anglerfish have a gel-like substance in their bodies that helps them resist the crushing pressure of the deep ocean. Additionally, they have a specialized skeletal structure that supports their body and internal organs, allowing them to withstand the extreme pressure of their deep-sea environment.
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.
A high pressure object is an object that contains or creates a force per unit area that is higher than its surrounding environment. Examples include pressurized gas cylinders, hydraulic systems, and deep-sea submarines.