1.1134 × 102 gcm3
923.076923077 cm3
It has a mass of a you jk its 3.61
116.8478 cubic centimeters (approximately) You can determine this by dividing the mass by the density.
The density of the hammer is the same no matter where it is. Density = Mass / volume. Neither Mass nor volume is dependent on gravity there for Density is also independent of gravity.
1 gram/centimeter3 (g/cm3) equals 1000 kilogram/meter3 (kg/m3)
A substance with density equal to 2.1 gcm3 it's sinking in water.
float
sink
about 1.1
According to the chart, one milliliter of water would have a density of 1 g/cm3.
1.1134 × 102 gcm3
A substance with a density of 1.3gcm-3 would sink in water. Float (APEX)
2.0-2.7mg/cm3
Convert everything to meters, square meters, and kilograms / cubic meter. Then multiply the height by the area to get the volume; next multiply the volume by the density to get the mass.
grams per cubic centimeter
rubber