A ship will float on the water if it has less density than the water. That includes any air trapped inside the ship - so to calculate the density, you divide the total mass by the total volume.
More generally, any object will float on any liquid (or in any gas, for that matter) if it is less dense than the liquid or gas.
The structure of an iron ship is such that its density is less than that of water. Anything with a density less than water will float in water.
A ship floats on the sea due to the principle of buoyancy. The weight of the water displaced by the ship is equal to the weight of the ship, allowing it to float. This is because the density of the ship is lower than the density of water.
Buoyant force = Density of the water * g * Volume of displaced water For the ship to float, the buoyant force must be equal to the weight of the ship. Density of the water * g * Volume of displaced water = m * g Density of the water * Volume of displaced water = m When you multiply the density of water by the volume of displaced water, you get the mass of the ship.
The amount of water needed to float a ship depends on factors such as the weight and size of the ship, as well as the density of the water. A ship displaces an amount of water equal to its weight, so it will float as long as it displaces its weight in water.
No, a ship floats on water because it displaces an amount of water equal to its weight, following Archimedes' principle. The shape and design of the ship also play a significant role in determining whether it will float. The ship's overall density doesn't need to be higher than water for it to float.
Put an egg in fresh water and it will sink. Put the egg in heavily salted water and it will float near the surface. This is because the salt makes the water more dense and able to support more weight. The same goes for a ship. A ship will settle lower in fresh water and the same ship will float higher in the oceans.
Yes, a ship can float on water because it displaces an amount of water equal to its weight when it is partially submerged. The buoyant force exerted by the water is greater than the weight of the ship, keeping it afloat.
The steel has a density greater than water; but the ship does not. To calculate density, you divide mass by volume. This includes the mass - and the volume - of any air trapped inside the ship.
A large ship can float in water due to 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. The shape of the ship's hull and the distribution of weight also play a role in helping it float.
a ship stays on water frombuoyancy which makes it float. the saltier the water the more buoyancy there is, enabling more weight to float on top
An object will float on water if it has less density than the water.
An object will float on water if it has less density than the water.