Density is the relation of two extensive properties, mass and volume, to form an intensive property. Divide the volume into the mass, and that is your density. For your scenario, the formula would look like the following: 60 g/2 mL = 30 g/ml. Note that mL and cubic centimeters are the same thing.
Density = mass (g) / volume (mL).
234 cm cubed = 234 mL.
60 / 234 = 0.256 g/mL. This is your density. As this is lower than 1g/mL, it will float on water.
Conversely, you can find the mass of an object by multiplying the volume by the known density!
Your 60 kg liquid occupying 2m3, is equivalent to 30kg liquid occupying 1m3.
Now, 1m3 of water (the reference fluid) weighs 1000kg.
So your fluid has a specific gravity of 0.03 of that of water.
Density = Mass/Volume = 60 g/120 cm3 = 0.5 gm per cm3
Density = mass/volume Density = 60g/120 cm Density = 0.5gcm-1
Volume cannot be measured as 2 cm. The question, therefore, makes no sense.
I got 30
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30
39
2.5 g/cm3
0.83g/ml. You take the mass and divide it by the volume to get the density of the object. so 2.5/3.0=0.8333333g/ml.
It depends on the density of the material whose weight is 5 milligrams.Yes, 5 milligrams equal to 5 cubic centimeters only if the material density = 1 milligram/cm 3
I am not aware of an elemental metal whose density is around 4.2 grams per ml. However, among common metals, aluminium has a density of 1.7 grams per ml and copper has a density of 9.0 g/ml. Therefore, a suitable alloy of the two would have a density of 4.2 g/ml. Zinc (7.13 g/ml) could also be part of the alloy.
If you had an object whose composition was entirely unknown, you could not analyse its composition by density alone. There are an endless number of possible combinations of materials that would have any given density. However, in some circumstances density does allow you to determine composition. If for example, you have an alloy of copper and zinc, but you do not know the relative proportion of the two metals and you would like to find out, you could determine that proportion by measuring the density, since copper and zinc each have a different density, and the problem can be solved as a simple algebraic equation.
It could be a solid object made with a mixture of materials whose average density is 5 grams per cm3 or it could be a hollow object made with materials whose density is higher.
3 grams per cubic centimeter :D
density = mass/volume = 36 g / 12 cm3 = 3 grams per cm3
2.5 g/cm3
density = mass / volume = 72 g / 36 cm³ = 2 g/cm³
It will float in water, and in any other fluid whose density is greater than the object's density.
It is a mistake. Density cannot be measured in grams and any calculations whose answer leads to a density of 24g is incorrect.
Density = 2.991 g/cm3
In this case.......... Density = mass in grams/centimeters cubed 5.54 cm * 10.6 cm * 199 cm = 11686.076 cm^3 Density = 28.6 grams/11686.076 cm^3 = 0.00245 grams/cm^3
Since density = mass/volume, D = 25/10 = 2.5g/cm^3
all objects whose density is less than water's.
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