A sea comprised of liquid, with the greatest possible density.
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.
You can float in sea water due to its buoyancy from the salt content. However, you would not float in glucose because it is denser than water.
A ship floats in sea water because it has a density less than that of the water it displaces. The shape of the ship also contributes to its buoyancy, as the hull design helps distribute the weight of the ship and enable it to displace enough water to stay afloat.
A ship loaded with a cargo of Styrofoam would rise higher in the water compared to if it were empty. Styrofoam is less dense than water, so it provides buoyancy and causes the ship to float higher in the water.
A ship floats deeper in fresh water than in sea water because fresh water is less dense than sea water due to a lower concentration of salts and minerals. This lower density causes less buoyant force to be exerted on the ship, making it float deeper in fresh water in order to displace an equivalent volume of the less dense liquid.
boyancy in the hull of the ship
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.
its anything that can float in sea like a submarine,ship, yacht etc
ship float in the sea because water has less density than any substance ship has much weight and thatswhy it sinks
The water of the Dead Sea is unusually salty (even for a sea) and hence, it is also unusually dense.
Displacement - the ship displaces an amount of water equal to its weight. Provided that this dowes not submerge the vessel, it will float.
No.
Sea water has salt, and therefore a higher density.
You can float in sea water due to its buoyancy from the salt content. However, you would not float in glucose because it is denser than water.
A ship floats in sea water because it has a density less than that of the water it displaces. The shape of the ship also contributes to its buoyancy, as the hull design helps distribute the weight of the ship and enable it to displace enough water to stay afloat.
Yes. The ability of cork to float in water is a result of its low density. The same principle applies to large ships at sea: while the ship itself is very large and very heavy, the air trapped inside the hull of the ship reduces the ship's average density to less than that of the water, so it will float.
At the time, the Titanic was a great achievement in engineering, etc... but, ummm, it sank. It really wasn't the best ship for sea travel.