Yes it is true were did you learn that very impressive.
Yes, that's correct. A ship floats on water because it displaces an amount of water equal to its weight. The density of the ship (mass divided by volume) is less than that of water, allowing it to float.
Lower.
No it has a higher density than water but the air in the ship helps.
An object will float in water if it has less density than the water. You can calculate the density of the object by dividing its mass by its volume. For comparison, the density of water is: * 1 gram / cubic centimeter * 1 kilogram / liter * 1000 kilograms / cubic meter
For something to be able to float on water, it requires a density lower than water. Water at room temperature has a density of 1 kg / L or 1000 g / dm3Atomic number 43 is the element Technetium. At room temperature Tc has a density of 11 g / dm3.So yes, it will float on water.
Technically no. You see, if the density of the person sitting on top of the sack of apples were less than the density of water, than it would float, i dount that this would actually be the case. Also it would be able to float if the sack of apples were one of those floating devises used in the water. lol
coal can float on water, because water's density is 1.0 g/cm3. and nothing is able to float on water unless it's density is less than water's density (; hope this helps you out! coal can float on water, because water's density is 1.0 g/cm3. and nothing is able to float on water unless it's density is less than water's density.
Lower.
No it has a higher density than water but the air in the ship helps.
it is less dense than 1.00, the density of water is 1.00 so ya ur not cool
Saturn has a very low density and it would be able to float on water. The density of Saturn is: 0.687 grams per cubic centimeter.
A cork is able to float on water because it is less dense than the water. The reason why is because an object with more dense then itself it will float and an object with less density will sink in the fluid. HOWEVER if the object (such as the cork) has the same density, the object will neither float nor sink; instead it will stay at the same level in the fluid. So TECHNICALLY it is considered floating. So corks count as floating because it has less dense than the water. Sources: (Science: Glenco textbook)
An object will float in water if it has less density than the water. You can calculate the density of the object by dividing its mass by its volume. For comparison, the density of water is: * 1 gram / cubic centimeter * 1 kilogram / liter * 1000 kilograms / cubic meter
For something to be able to float on water, it requires a density lower than water. Water at room temperature has a density of 1 kg / L or 1000 g / dm3Atomic number 43 is the element Technetium. At room temperature Tc has a density of 11 g / dm3.So yes, it will float on water.
Pure water ice cubes always float. They float because the molecules of water rearrange into a crystalline shape when they freeze. That arrangement leaves more empty space between the molecules of water which reduces the density of the water in ice form. Lower density objects float on higher density liquids.
Lead sinks in water because the density of lead is greater than the density of water.The displacement of water needs to be equal to the weight of the object for it to float. Lead sinks because the displacement of lead is greater than the displacement of water.
The statement is false. The word "greater" must be replaced with the word "less" in order to make the statement true.
Well it takes 1 cup and 1 teaspoon for it to officially float on the water to be able to understand the ocean salt water and it's density.