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If it were to be tested on water, it would sink because the density of water is about 1 gram per cm cubed, and ebony has a larger density.
What would be the density of an object that has a volume of 25 cm3 and 5 grams?
Linear density, perhaps?
5 grams/(2cm)^3=5 grams/8cm^3=5/8 grams/cm^3 or 5/8 grams/ml
well you have to think you would weigh this using grams so the density of a foam block is "Grams per cubic centimeters"
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.
density is measured in grams per liter (g/L)
If it were to be tested on water, it would sink because the density of water is about 1 gram per cm cubed, and ebony has a larger density.
Objects with a density lower than 2 grams per cubic centimeter will float on the fluid. This includes materials like wood, plastic, and cork. Objects with a higher density, like most metals, will sink.
To convert milliliters (mL) to grams (g), you will need to know the density of the substance you are working with. Once you have the density, you can multiply the volume in milliliters by the density to find the weight in grams. The formula for this conversion is: grams = milliliters x density.
Yes, the wood would float in water because its density is less than that of water (1 gram per cubic centimeter). Objects with a density less than that of water will float, while objects with a density greater than that of water will sink.
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.
It would depend on the density of the wood. If the density of the wood is less than the density of water (1 g/cm^3), then it will float. If the density of the wood is higher than the density of water, then it will sink.
The conversion of grams to milliliters depends on the density of the oil. For most oils, the density is around 0.92 g/mL, so 250 grams of oil would be approximately 271 mL.
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.
The conversion of milliliters to grams depends on the substance's density. For water, which has a density of 1 g/mL, 520 ml would be equal to 520 grams.
A block of aluminum will float on a pool of mercury at nearly any temperature (except at extremely elevated temperatures (above 350 °C) where mercury is no longer liquid) The density of aluminum is 2.70 grams per cm3, whereas the density of mercury is 13.53 grams per cm3. Therefore mercury is more than 5 time more dense than aluminum! Anything that is less dense than a liquid will float in that liquid. Not only would aluminum float but it float with only 1/5 of it's volume submerged.