1 gm = 1cm3 = 1ml
Mercury has the largest density of common liquids, at 13.6 g/cm3, so 1 cm3 of mercury would have the largest mass. This is due to its high atomic weight and closely packed atoms in its liquid state. Other common liquids like water (1 g/cm3) and alcohol (0.79 g/cm3) have lower densities and thus lower masses for the same volume.
Density = Mass/Volume = 16.5 g / 2.2 cm3 = 7.5 g/cm3
Well, sweetheart, to find the volume of that rock, you divide the mass by the density. So, 600 g divided by 3.00 g/cm3 gives you a volume of 200 cm3. Voila, you've got your answer!
3 g/10 cm3 = 0.3 g/cm3 and this is the density, since density is expressed as mass/volume.
Assuming the wood has a volume of 200 cm3 and not 200 cm as stated, its density is 120 g/200 cm3 =120/200 g/cm3 = 0.6 g/cm3
The substance with a density of 0.9 g/cm3 would float on water, as its density is less than that of water (1 g/cm3). Objects with a density less than 1 g/cm3 will float on water, while those with a density greater than 1 g/cm3 will sink.
Density of Mountain Dew- 1.02 g/cm3 (volume=380 ml (1 ml= 1 cm3), mass=389 g.) Density of Diet Mountain Dew- 1 g/cm3 (volume=380 ml (1 ml= 1 cm3), mass=380 g.)
Convert: 1kg/m3 to g/cm3 1kg=1000g 1m3=100*100*100=1000000cm3 therefore: 1000g/1000000cm3 = 0.001g/cm3 4200kg/m3 * 0.001g/cm3 = 4.2g/cm3
The mass of 15 ml of a liquid with a density of 1 g per cm3 can be calculated using the formula: Mass (g) = Volume (ml) x Density (g/cm3). So, 15 ml x 1 g/cm3 = 15 grams. Thus, the mass of 15 ml of this liquid would be 15 grams.
Water is 1 g/cm3 while kerosene (or paraffin) is 0.78-0.81 g/cm3
If its mass is 0.6 g and its volume is 1 cm3 , then its density is 0.6 g per cm3 .
The mass of 1 cm3 of water is approximately 1 gram.
It's called displacement. You take a beaker or some measuring container and fill it up with water to a certain marker. Then, you put in whatever you need to measure, and however much the water rises from the original marker, that's the volume of the object.
g is not a unit for density. g/cm3 is. At room temperature: Aluminum has a density of 2.7 g/cm3 Scandium 2.985 g/cm3 Bromine 3.1028 g/cm3 (liquid)
I am assuming you mean the density is 4.0 g/ cm3 and the displaced H20 is 3.0 cm3 (3 mls when converted to cm3). Look at the units that should tell you how to solve the problem. Your answer must in g (mass), thus you take 4.0 g/cm3 times 3.0 cm3. Units are treated like numbers, for example 3 times 1/3 equals 1 - both 3's cancel leaving only 1 time 1 which equals 1. In this case you have 4 g/cm3 times 3.0 cm3, cm3's cancel leaving only g as your unit at the end. The rest is for you to solve! Enjoy your problem. I am assuming you mean the density is 4.0 g/ cm3 and the displaced H20 is 3.0 cm3 (3 mls when converted to cm3). Look at the units that should tell you how to solve the problem. Your answer must in g (mass), thus you take 4.0 g/cm3 times 3.0 cm3. Units are treated like numbers, for example 3 times 1/3 equals 1 - both 3's cancel leaving only 1 time 1 which equals 1. In this case you have 4 g/cm3 times 3.0 cm3, cm3's cancel leaving only g as your unit at the end. The rest is for you to solve! Enjoy your problem.
3000 g is equal to 3 kg, as 1 kg is equal to 1000 g.
0.001 g = 1 mg