A big ship made of iron can float due to its shape and displacement. When a ship is designed with a hull that displaces enough water, it creates buoyant force greater than its weight, allowing it to float. Additionally, the weight of the iron ship is distributed over a large surface area, decreasing the pressure exerted on the water and helping it to stay afloat.
Big heavy steel ships can float on water because of a principle called buoyancy. The weight of the water displaced by the ship is greater than the weight of the ship itself, causing it to float. The shape of the ship's hull also plays a role in distributing the weight evenly, allowing it to stay afloat.
Big metal ships are designed with a specific shape and structure that displaces enough water to generate buoyancy, which allows them to float. The weight of the ship is spread out over a large enough area, preventing it from sinking. The principle of buoyancy, based on Archimedes' principle, explains why objects float or sink in a fluid.
stones having greater density than water . according to arcumedis principle stones will sink.but ships having low density compare to water. then ships will sinkBubbles are less dense than water, so they float. Think of the inside of a big ship as a huge bubble. The air inside it is less dense than the water, so it floats, and its push upward is so great that the ship floats as well. If the ship were not hollow, it would sink.Bubbles are less dense than water, so they float. Think of the inside of a big ship as a huge bubble. The air inside it is less dense than the water, so it floats, and its push upward is so great that the ship floats as well. If the ship were not hollow, it would sink.A material sinks in water when the density is greater than 1 g/cm3.A material floats on water when the density is under 1 g/cm3.Approximately ... it depends on the exact density of the water, but 1 tonne per cubic metre is roughly correct.However, large ships are often metal, and metal is obviously denser than water. So how do they float?The trick is that it's not the density of a particular piece of the ship that matters, but the overall density including the empty spaces (filled with air) inside. As long as the overall mass of the ship is less than the mass of the water it displaces, the ship will float. Even if you make it out of stone.the density of rock is more than the density of water therefore it sinksthe density of iron is more than the density of water but an iron ship is shaped in such a way that it is hollow from within and therefore an iron ship floats in water while a stone or rock sinks.Answered ByKaran A
The shape of the ship allows it to float. Imagine a ship that was just a big block of steel, If you put that steel block into water, it would sink because it is denser than water. Ships are built with a hollow shape. The amount of steel is the same, but the hollow shape decreases the boat's density. Water is denser than the hollow boat, so the boat floats. Shaping the block into a hollow form increases the volume occupied by the same mass, which results in a reduced overall density. The ship floats because it is less dense than water.
No. The relationship between mass and displacement does. Think about ships and boats. If had a big block of steel with the same mass a cargo ship and put it in the water, then it would sink. The ship is shaped so that it displaces enough water to keep itself afloat. If you cut a hole in the bottom of the ship, and then weld that material the side of it, then you haven't changed the mass of it, but it will sink.
Because the ship contains a large amount of air in it. But iron nail doesn't have any space to contain air in it. Air is a lightest thing. That can't sink in water. This method is used in submarines to sink it. There is a tank in the submarine. When they need to sink it they fill the tank with water. To float it they use to fill the tank with air.
Big heavy steel ships can float on water because of a principle called buoyancy. The weight of the water displaced by the ship is greater than the weight of the ship itself, causing it to float. The shape of the ship's hull also plays a role in distributing the weight evenly, allowing it to stay afloat.
A big iceberg sank the Titanic, a very big ship for it's time.
No.... not at all that's a big no...
Big metal ships are designed with a specific shape and structure that displaces enough water to generate buoyancy, which allows them to float. The weight of the ship is spread out over a large enough area, preventing it from sinking. The principle of buoyancy, based on Archimedes' principle, explains why objects float or sink in a fluid.
massive and made out of iron 6billion feet almost
A big iceberg sank the Titanic, a very big ship for it's time.
about as big as Columbus's ship
Big Iron was created in 1959.
The sun doesn't float because it is made of gas and fire.The sun is basically a big giant ball of gas and fire.So it is impossible for the sun to float. If you think anything else wrong!
stones having greater density than water . according to arcumedis principle stones will sink.but ships having low density compare to water. then ships will sinkBubbles are less dense than water, so they float. Think of the inside of a big ship as a huge bubble. The air inside it is less dense than the water, so it floats, and its push upward is so great that the ship floats as well. If the ship were not hollow, it would sink.Bubbles are less dense than water, so they float. Think of the inside of a big ship as a huge bubble. The air inside it is less dense than the water, so it floats, and its push upward is so great that the ship floats as well. If the ship were not hollow, it would sink.A material sinks in water when the density is greater than 1 g/cm3.A material floats on water when the density is under 1 g/cm3.Approximately ... it depends on the exact density of the water, but 1 tonne per cubic metre is roughly correct.However, large ships are often metal, and metal is obviously denser than water. So how do they float?The trick is that it's not the density of a particular piece of the ship that matters, but the overall density including the empty spaces (filled with air) inside. As long as the overall mass of the ship is less than the mass of the water it displaces, the ship will float. Even if you make it out of stone.the density of rock is more than the density of water therefore it sinksthe density of iron is more than the density of water but an iron ship is shaped in such a way that it is hollow from within and therefore an iron ship floats in water while a stone or rock sinks.Answered ByKaran A
Big, thick, handcuffs made of iron or steel. Sometimes they are connected to chains.