The ships go lower in hot water because it is less dense than the cold water. The molecules in the cold water are more stationary than in warn water when they are moving faster so it is not as solid.
A ship's draft, or how deep it sits in the water, is determined by factors like the ship's weight, buoyancy, and the density of the water. The deeper the draft, the lower the ship sits in the water. The ship will sink until it displaces an amount of water equal to its weight, which is known as the principle of buoyancy.
When cold water is poured into hot water, it sinks because it is denser than the hot water. The cold water is heavier due to the molecules being closer together at a lower temperature, causing it to sink to the bottom. The hot water, which is less dense, rises to the top.
It's buoyancy since the air in the bottom of the ship keeps it afloat. The air is lighter and less dense, so it does not sink into the water. The amount of air must be adequate to the boat's size. Bigger boats need more buoyancy.
An empty ship has less displacement and sits higher in the water compared to a loaded ship, which has more displacement and sits lower in the water due to the added weight of cargo. This difference affects stability, maneuverability, and fuel efficiency of the ship.
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.
It's possible that a ship of steel will not sink as well. But if it will sink, it would be because the density of steel is greater then the density of water, while air's density is lower then water's.
A ship's draft, or how deep it sits in the water, is determined by factors like the ship's weight, buoyancy, and the density of the water. The deeper the draft, the lower the ship sits in the water. The ship will sink until it displaces an amount of water equal to its weight, which is known as the principle of buoyancy.
Rise up - but not much.
SiNk
When cold water is poured into hot water, it sinks because it is denser than the hot water. The cold water is heavier due to the molecules being closer together at a lower temperature, causing it to sink to the bottom. The hot water, which is less dense, rises to the top.
A ship won't sink if the density of the ship (metal, wood, cargo, any included air) is less than the density of water.
It's buoyancy since the air in the bottom of the ship keeps it afloat. The air is lighter and less dense, so it does not sink into the water. The amount of air must be adequate to the boat's size. Bigger boats need more buoyancy.
yes because it is the effect if gravity as the mass increase the weight would also and so the ship would sink
An empty ship has less displacement and sits higher in the water compared to a loaded ship, which has more displacement and sits lower in the water due to the added weight of cargo. This difference affects stability, maneuverability, and fuel efficiency of the ship.
HOT rises COLD sinks
Cold water coming out of the hot tap in your sink could be due to a problem with the water heater, such as a malfunctioning thermostat or a broken dip tube. This can cause the hot water to mix with the cold water, resulting in a lower temperature at the tap. It is recommended to have a professional plumber inspect and repair the issue to ensure proper functioning of your hot water system.
Ships don't sink in the ocean because the air pressure pushes the ship upward and keeps it buoyant-------------------------------- Ships don't sink because the overall density of the ship is lower than the density of the salt water and it displaces its weight's equivalent of water using only a portion of the ship's volume.