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The design of the hull will determine what the displacement of water is. Also, the weight of the cargo in/on the ship.
An object that has a "net density" greater than the liquid it is placed in will normally sink to the bottom of the container. In some cases, usually for small objects, the surface tensionof the liquid will keep it afloat, but that can change (e.g. adding soap to water reduces surface tension).When sunken, the object is DISPLACING its net volume of liquid. When an object floats, it is only displacing its net weight of liquid.For example, an open steel canoe floats on a lake because its interior contains air, making its net density lower than water. The canoe will sink down partly into the water, and displace a mass of water equal to the mass of the canoe and its occupants. If it is overloaded, and water enters the canoe, it will sink to the bottom of the lake, its net density now being greater than water. The occupants will swim away, and the canoe is now only displacing its net volume (i.e. of the sides and bottom of the boat, and any small closed spaces that water cannot enter).
BABYBEL cheese made at 100 degree fahernheit floats in water
it floats on water because bark contains air Bark floats in water because it is less dense than water.
if its heavier than water it sinks. lighter floats
Tides.
The water density is higher than the boat's therefore it floats on the water.
water level will remain the same
Yes. It floats on water
Of course. Fresh water floats on salt water, warmer water floats on cooler water, and ice floats on any water.
The design of the hull will determine what the displacement of water is. Also, the weight of the cargo in/on the ship.
if its in water and it has less grams per cm cubed than the water does then it will float and vicevesa
In a canoe, when you put the oars in the water and row, you are creating a type of force against the water, which allows the boat to move forward/backward depending on the direction of thrust.
An object that has a "net density" greater than the liquid it is placed in will normally sink to the bottom of the container. In some cases, usually for small objects, the surface tensionof the liquid will keep it afloat, but that can change (e.g. adding soap to water reduces surface tension).When sunken, the object is DISPLACING its net volume of liquid. When an object floats, it is only displacing its net weight of liquid.For example, an open steel canoe floats on a lake because its interior contains air, making its net density lower than water. The canoe will sink down partly into the water, and displace a mass of water equal to the mass of the canoe and its occupants. If it is overloaded, and water enters the canoe, it will sink to the bottom of the lake, its net density now being greater than water. The occupants will swim away, and the canoe is now only displacing its net volume (i.e. of the sides and bottom of the boat, and any small closed spaces that water cannot enter).
It is less dense than water, therefore it floats on water.
In water
kerosene floats on water because kerosene is less denser than water