When a submarine goes farther down in the water, the water pressure becomes greater. If the submarine goes to far, pipes can explode and let in water, or it can implode the submarine
Yes, water exerts pressure on the hull of the submarine.
As a submarine dives deeper into the ocean, the pressure increases due to the weight of the water above it. Water is denser than air, and each additional meter of water adds more weight, resulting in greater pressure exerted on the submarine's hull. This increase in pressure can affect the structural integrity of the submarine, necessitating robust engineering to withstand these extreme conditions.
Yes, the water pressure on a submarine increases as it goes deeper.
this Submarine can not break of water pressure because it is made of the hardest metal in the world!
The pressure gets too great and the submarine implodes. The deeper you go under water the more pressure there is.
A submarine hatch can be opened fairly easily if the submarine is filled with water because the water pressure on each side of the hatch is equalized.
Just like gases, water exerts pressure due to its weight, and this pressure increases with depth. As a submarine descends, the water pressure surrounding it intensifies, which can be fatal if there are structural weaknesses in the hull. If these weaknesses are not addressed, the immense pressure can cause the submarine to be crushed, compromising its integrity and safety. This is why submarines are designed to withstand significant underwater pressure.
As a submarine submerges, it is subjected to a high volume of water pressure, which increases the further in depth the submarine goes. They have to be built to be able to withstand this pressure.
False
A submarine is kept at, or close to, surface air pressure.
true
The process of a submarine to move from the surface of the ocean to a position underneath the surface is called a dive. This is accomplished by allowing water to fill the tanks of the submarine, the heavy water pressure now inside the vessel now will force it to sink below the surface, thus a "dive".