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a 5 gram object that is 5 cm3
Things float better in salt water than fresh water due to the mass and density of the salt as opposed to that of the water. Sodium chloride (Being the classic "salt" people are familiar with) has a density of 2.165 grams per cubic centimeter, while water has a density of 1 gram per cubic centimeter. Thus, when the two are mixed and the salt dissolves evenly throughout the solvent (water), the density increases. At least, in layman terms. Now, an object sinks in a fluid when the density of that object is greater than that of the fluid. Since fresh water has a density of 1, and salt water has some density greater than that (dependent upon how much salt is dissolved in it), then more objects will likely have a density greater than that of the less dense fluid (fresh water) than that of the more dense fluid (salt water) With that logic, fewer objects will have more density than that of salt water, and therefore, more things will float in it.
That object will float, because the density of water is always around 1.0 .
Objects denser than water will sink; objects less dense than water will float. Since aluminum metal has a density of around 2.7 grams per cubic centimeter and water has a density of 1.0, a solid block of aluminum would sink.
--Objects sink in water if they have a higher density than water and float if they have a lower density than water. Density is mass per volume of an object (usually measured in grams per milliliters, or g/mL)-- a denser object, such as a brick, will have a higher mass per volume than a less dense object, such as a sponge. The density of water is 1 g/mL, so anything with a density greater than 1 g/mL will sink, and anything with a density lower than 1 g/mL will float.
a 5 gram object that is 5 cm3
a 5 gram object that is 5 cm³ :)
Things float better in salt water than fresh water due to the mass and density of the salt as opposed to that of the water. Sodium chloride (Being the classic "salt" people are familiar with) has a density of 2.165 grams per cubic centimeter, while water has a density of 1 gram per cubic centimeter. Thus, when the two are mixed and the salt dissolves evenly throughout the solvent (water), the density increases. At least, in layman terms. Now, an object sinks in a fluid when the density of that object is greater than that of the fluid. Since fresh water has a density of 1, and salt water has some density greater than that (dependent upon how much salt is dissolved in it), then more objects will likely have a density greater than that of the less dense fluid (fresh water) than that of the more dense fluid (salt water) With that logic, fewer objects will have more density than that of salt water, and therefore, more things will float in it.
That object will float, because the density of water is always around 1.0 .
Any object which, if submerged, would displace 2 times its own volume. The density of the object could be well above 2 gms/cm^3. If that were not the case, then ships made of metal would never float in water. which has a much lower density.
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.
The Density of the object as long as its .99 grams then it will float because the object has to have less density than water in order to rise above the water.
Objects denser than water will sink; objects less dense than water will float. Since aluminum metal has a density of around 2.7 grams per cubic centimeter and water has a density of 1.0, a solid block of aluminum would sink.
--Objects sink in water if they have a higher density than water and float if they have a lower density than water. Density is mass per volume of an object (usually measured in grams per milliliters, or g/mL)-- a denser object, such as a brick, will have a higher mass per volume than a less dense object, such as a sponge. The density of water is 1 g/mL, so anything with a density greater than 1 g/mL will sink, and anything with a density lower than 1 g/mL will float.
That's a unit of density.
It depends on the density of the oil in relation to the density of the object. Any object will sink in any fluid until the density of the object and the fluid reach equilibrium.The density of a fluid increases as the depth of the fluid increases. Water at the surface has a density of 1 gram per cubic centimeter. At 100 meters depth the pressure acting on the water with no change in temperature equals 10kg/square cm.This compression on the water increases its density per cubic centimeter to about 1.000464 grams per cubic centimeter. This isn't the same with all liquids, some are more or less compressible than water. An incompressible object with a density of 1.000464 grams per cubic centimeter, however, would sink in the water until it reaches somewhere about 100 meters depth. Then it would float there. [The density changes with temperature as well, so that a slight change in temperature would make the object more or less buoyant at that depth.] This tendency to find equilibrium is the principle upon which submarines are able to operate, changing depth by increasing or decreasing their relative density.An object with 8 grams per liter density will float in most liquids. An object with a density of 8 grams per cc will sink in most liquids.
Yes, it will because the density of water is 0.98g/mL and this thing's density is 0.972222222222222222222222222222222222222222222222222222222222