Engine. Oars. Sails. Towrope
The ship was designed and built to stay afloat if four watertight compartments were breached, but the iceberg breached five compartments, so the ship couldn't stay afloat
Titanic's master builder, Thomas Andrews, had taken courses in naval architecture and ensured that Titanic could stay afloat with up to four compartments flooded.
Because the water pushes the boat up and the weight pushes the boat down so that it stay afloat
the titanic was flooded because an iceberg struck the ship which filled the first 5 compartments when only 4 compartments can be filled in order for it to still stay afloat.
The crew members of the ship, particularly those in charge of emergency procedures and firefighting efforts, were responsible for delaying the explosion. Their quick actions in managing the situation, including sealing off compartments and attempting to control the fire, allowed the ship to stay afloat for nearly an hour longer. Additionally, external rescue teams may have played a role in providing support during the critical moments.
The bouyancy of the vessel keeps it afloat. As long as the force of bouyancy is larger then the mass of the ship it will stay afloat.
The ship was designed and built to stay afloat if four watertight compartments were breached, but the iceberg breached five compartments, so the ship couldn't stay afloat
A ship stays afloat on water due to the principle of buoyancy. The weight of the ship is displaced by an equal volume of water, creating an upward force called buoyancy that keeps the ship from sinking. The shape and design of the ship's hull help distribute the weight and control buoyancy to keep the ship stable and afloat.
A ship stays afloat as long as the buoyant force pushing up on the ship's hull is greater than the force of gravity pulling the ship down. This buoyant force is generated by the displaced water and is proportional to the weight of the water the ship displaces.
The buoyant force acts upward on an object immersed in a fluid and is equal to the weight of the fluid displaced by the object. This force helps support the weight of the ship by pushing it up, allowing the ship to stay afloat. As long as the buoyant force is greater than or equal to the weight of the ship, it will remain floating.
A steel ship floats because of the principle of buoyancy. The weight of the water displaced by the ship is equal to the weight of the ship itself, allowing it to stay afloat.
They stay afloat the same way any ship stays afloat. The displacement of the vessel has to be less then the amount of water being displaced. The armaments have to be carefully planned to make sure that things don't get too heavy. And the balance and location have to considered as well, to make sure the ship doesn't roll over.
Yes, it is possible to stay afloat in water for long periods of time with clothes on. The type of clothing can affect buoyancy, with heavier materials making it more challenging. Additionally, wearing clothing that absorbs water can increase the weight and make it harder to stay afloat.
Equal to the weight of the displaced fluid
It was called the Unsinkable Ship because it was designed to stay afloat with 4 watertight compartments breached, but 5 compartments were breached when the ship collided with the iceberg
Titanic's master builder, Thomas Andrews, had taken courses in naval architecture and ensured that Titanic could stay afloat with up to four compartments flooded.
The ship floats because of its large volume which displaces an amount of water that is more than its weight. That creates an upward force called buoyant force which keeps the ship on the surface.