First, we have to do some convertions. Let's start with pounds to grams. The conversion factor will look like this:
.55 lbs/1 * 453.59237 g/1 lb = 249.47 grams. With significant sigures...250 grams.
This next conversion is easy, because 1 mL = cm3...105 cm3.
Now we plug that into the density formula (D=M/V), where our mass is 250 g, and our volume is 105 mL. Therefore, D=2.4g/cm3
To find the density in g/cm^3, you first need to convert the mass from pounds to grams and the volume from milliliters to cubic centimeters.
1 pound is approximately 453.592 grams, so 55 pounds is about 24998.56 grams. 1 milliliter is equal to 1 cubic centimeter, so 105 ml is 105 cm^3.
Therefore, the density is calculated as mass (24998.56 g) divided by volume (105 cm^3), which equals approximately 238.08 g/cm^3.
The density is an intensive property; the density of lead remain unchanged in every piece of lead from this rod.
2.0-2.7mg/cm3
0,00045 dag/mm3.
The density of a pure sodium chloride crystal is 2,165 g/cm3.
Density of 1.738 g/cm3 at 20 oC is a physical property.
A substance with density equal to 2.1 gcm3 it's sinking in water.
float
sink
about 1.1
A substance with a density of 1.3gcm-3 would sink in water. Float (APEX)
The density of gallium is between 2.08 g/cm³ and 2.70 g/cm³ since gallium is located between boron and aluminum in the periodic table.
The density is an intensive property; the density of lead remain unchanged in every piece of lead from this rod.
2.0-2.7mg/cm3
According to the chart, one milliliter of water would have a density of 1 g/cm3.
0,00045 dag/mm3.
The density of a pure sodium chloride crystal is 2,165 g/cm3.
grams per cubic centimeter