Less than that of the substance it is floating on.
Float. The problem is whether you can find a bathtub big enough for it :D
If you mean gram/volume, which is density, it is an intensive property.
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 number of milliliters in 40 grams depends on the density of the substance. If the substance is water, which has a density of 1 gram per milliliter, then 40 grams would be equal to 40 milliliters. However, for other substances, the conversion would vary.
The conversion between grams and milliliters depends on the substance's density. If the substance is water, 100 milliliters would be equivalent to 100 grams, as the density of water is approximately 1 g/mL. For other substances, you would need to know the substance's density to make the conversion.
Such a substance will float on water, if that's of any help.
It depends on what the one gram is of 1g of lead is denser than 1g of oil (pretty sure because the oil would float on top of water and the lead block would sink)
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
The density of water is roughly 1 gram/cm3. If the density of the substance is less than that, then a solid lump of it can float. Otherwise it can't, but you can form the lump into shapes that can float, just as plate steel is formed into the shape of cruise ship or an aircraft carrier.
Anything with a density greater than 1 gram per cm3 .
The size of one gram can vary depending on the density of the substance. For example, one gram of lead would be much smaller in size compared to one gram of cotton. Typically, one gram of a substance like sugar or salt would be about the size of a standard paperclip.