To get the density, just divide the mass by the volume.
The volume is in cubic centimetres (cm3).
That depends on the density (density = mass / volume). If it is water then the volume would be 75 ml or 75 cu cm.
It depends on the density of the material. You must know, or be able to determine, the density of what you're measuring in order to determine the volume occupied by 9.5 grams of it. Density = mass divided by volume. So, volume = mass divided by density. For example, the volume of 9.5 grams of gold or lead is less than the volume of 9.5 grams of aluminum -- because gold and lead both have a higher density than aluminum does. (Logical, since a bucket filled with lead is a lot harder to lift than a bucket filled with aluminum.) For reference, the volume of 9.5 grams of water (at a standard temperature, pressure, etc.) is 9.5 ml. or 9.5 cc. (1 ml. or millilitre equals 1 cc. or cubic centimetre; both being the volume of a cube with sides measuring one centimetre.) The volume of 9.5 grams of any solid, liquid, or gas, is inversely proportional to the density, and can be compared to the volume and density of water. (For example, 9.5 grams of a material that's 9.5 times denser than water would occupy a volume of 1 ml. or 1 cc.) For a material of unknown density, you can determine its density by submerging a known mass of it in water, and measuring the volume (hence, the mass) of water it displaces. That's known as Archimedes Principle. Archimedes wanted to know if an object was pure gold (with a known density), or if it was gold mixed with a cheaper metal (with an unknown density). That's why Archimedes was motivated to be able to determine the density of an unknown material. For any material of known density, just look up its density, then calculate its volume using the formula above (volume = mass divided by density).
8.9 grams/mL x 396 mL = 3524.4 grams, or about 3.5 kg
Well, density is a ratio. Therefore the density of the material would be 1g/mL .
Grams is a measurement of mass, while teaspoons are a measurement of volume. In order to convert between them, you would need to specify the density of the material, or identify the material so that we can look up or calculate its density.
What would be the density of an object that has a volume of 25 cm3 and 5 grams?
As density is measured in mass per unit volume, the question is unanswerable as written. We need to know "density of 2.5 grams per what measure of volume" in order to answer the problem.
Linear density, perhaps?
Grams is a measure of mass and milliliters is a measure of volume. The way they are related is through the equation: density= mass/ volume. Therefore you would need to find the density of the substance in order to convert the units. If you find the density then you would multiply the density and 47 grams to find the volume.
That depends on the density (density = mass / volume). If it is water then the volume would be 75 ml or 75 cu cm.
It depends on the density of the material. You must know, or be able to determine, the density of what you're measuring in order to determine the volume occupied by 9.5 grams of it. Density = mass divided by volume. So, volume = mass divided by density. For example, the volume of 9.5 grams of gold or lead is less than the volume of 9.5 grams of aluminum -- because gold and lead both have a higher density than aluminum does. (Logical, since a bucket filled with lead is a lot harder to lift than a bucket filled with aluminum.) For reference, the volume of 9.5 grams of water (at a standard temperature, pressure, etc.) is 9.5 ml. or 9.5 cc. (1 ml. or millilitre equals 1 cc. or cubic centimetre; both being the volume of a cube with sides measuring one centimetre.) The volume of 9.5 grams of any solid, liquid, or gas, is inversely proportional to the density, and can be compared to the volume and density of water. (For example, 9.5 grams of a material that's 9.5 times denser than water would occupy a volume of 1 ml. or 1 cc.) For a material of unknown density, you can determine its density by submerging a known mass of it in water, and measuring the volume (hence, the mass) of water it displaces. That's known as Archimedes Principle. Archimedes wanted to know if an object was pure gold (with a known density), or if it was gold mixed with a cheaper metal (with an unknown density). That's why Archimedes was motivated to be able to determine the density of an unknown material. For any material of known density, just look up its density, then calculate its volume using the formula above (volume = mass divided by density).
Density = mass / volume mass is measured in grams, volume in ml or cm3 Density = grams / ml 0r g/ml volume / density = ??? ml / (g/ml) is a complex fraction ..... simplify into ml2 / g ??? what would have such units of measurement? Nothing.
Density= Mass/Volume However a cm is a length NOT a volume (volume is cubic cm) so your question as asked can not be answered. However if you meant 21 cubic centimeters, then the density would be 2.71 grams per cc.
100 cm is a length, not a volume. However, if the volume were 100 cubic cm, the density would be 0.196/100 = 0.00196 grams per cc.
8.9 grams/mL x 396 mL = 3524.4 grams, or about 3.5 kg
Iron pyrite (FeS2) has a density of 4.8 to 5.0 grams per cm3. A piece of volume 40 cm3 would, therefore have a mass of volume*density = 192 to 200 grams.
To find density, you must use the formula of D=M/V or density = mass divided by volume. You have given us 9g as a volume, but that should be either liters or some other measurement of volume. I'll assume liters. 45/9 = 5. So, The density of a solid that has a mass of 45 grams and a volume of 9.0 liters would be 5 grams/liter.