Linear density, perhaps?
That would be linear density.
Density = grams/cm^3 (cc) 3 cm^3 = 27 cm^3 Density = 12 grams/27 cm^3 = 0.4 grams/cm^3 ----------------------------
density = mass/volume volume = 2cm x 2cm x 2cm = 8 cm^3 density = 16 grams / 8 cm^3 = 2 grams/cm^3
The density is (the mass, in grams)/100 grams per cm3 .
Yes. You can find the density of a meterial if you have the mass and volume. You can use the formula D=mass/volume. The units for mass is grams and the units for volume are cm^3
Volume is measured in cm^3, not cm! The density is 14.375 grams per cm^3.
If the density of mercury is 13.546 g per cm cubed, the volume occupied by 999 grams of mercury is 73.7 cubic centimeters. papadantonakis.com/images/d/d0/Chem_101_Lecture_Notes_6.pdf
To get the density, just divide the mass by the volume.
density = mass/volume = 2g/40cm3 = 0.05g/cm3
Density = grams/cm^3 (cc) 3 cm^3 = 27 cm^3 Density = 12 grams/27 cm^3 = 0.4 grams/cm^3 ----------------------------
Density = Mass/Volume = 200 g / 5 cm3 = 40 gcm-3
Density is Mass/Volume. Since the mass is 65.1grams and the volume is 43.1cm, the density is 65.1/43.1 grams per cm. So the answer is 1.51044 grams/cm
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
density = mass/volume volume = 2cm x 2cm x 2cm = 8 cm^3 density = 16 grams / 8 cm^3 = 2 grams/cm^3
The density must be 22.5 GRAMS per cm cubed, not 22.5 cm cubed. Then, Density = Mass/Volume implies Mass = Density*Volume = 22.5 * 5.42 = 121.95 grams.
Its density is 5.32 grams per cm^3.
The density is (the mass, in grams)/100 grams per cm3 .
Yes. You can find the density of a meterial if you have the mass and volume. You can use the formula D=mass/volume. The units for mass is grams and the units for volume are cm^3