You would need a balance to measure its mass. You would need a ruler to measure the length of its sides. Then you would need to calculate volume. Then divide the mass by the volume to get density.
If this wasn't rounded to the least number of significant figures, the answer would be Bromine. The density of Bromine is 3.12 and if that answer wasn't a rounded figure, it would 3.105882353, which can be rounded to 3.12.
Nothing can have a volume of 3.2 m. If the volume were 3.2 cubic metres, the density would be 5/3.2 = 1.5625 kg per m3
Linear density, perhaps?
density = mass / volume Solving for mass: mass = density x volume Solving for volume: volume = mass / density
density= mass/volume
how would density of a metal be affected if it were wet
Yes, the overall density would be less than if the rod were pure metal.
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on a balance
They would probz use metal and use special tools to craft them into the artifacts they are.
That would vary greatly depending on the type and density of the metal, along with the dimensions of the particular piece. The weight of a piece of anything is the volume times the density.
knife, they are made up of metal
They slaves would have tools such as sticks, bones,metal.
The basic formula for density is density = mass/volume. If you have mass and density, you can manipulate the formula so that volume = density x mass.
No shape can have a density of 7.2 g since grams are not unit in which density is measured.If the density were 7.2 grams per cubic centimetre, then the with would be approx 0.000476 cm = 4.76 micrometres.
Air bubbles would make the volume you read in the measuring cylinder increase from the actual volume of theliquid. so when you add in the metal, there would be an increase in the volume of the metal than it really is. the mass of the metal cannot be affected by air bubble because this is the amount of matter in the metal. This increase in volume causes the density of the metal to reduce from its original value. since mass is constant, density is inversely proportional to volume. As volume increases, density decreases.hope that was helpful.
Mercury's density implies that 65% of the planet is metal-rich core, thus it would be the most metal-rich of the terrestrial planets.