From here, I can't quite make out the blocks of gold that you're looking at.
But the density of gold is about 19.3 gm/cm3 , whether it happens to be a flake,
a nugget, a coin, a bar, or an ingot. With density, size does not matter.
Density = Mass/Volume = 962/350 = 2.7485 grams per cubic centimeter
Density = Mass/Volume = M/(L*H*W) = 10/(58*24*20) = 10/27840 = 0.00036 grams per cm3. This is totally unlikely since even light balsa has a density of more than 0.1 g/cm3
It is the mass of the block divided by its volume.
well you have to think you would weigh this using grams so the density of a foam block is "Grams per cubic centimeters"
-5
An 8 cc block with a mass of 12.9 grams has a density of 12.9/8 = 1.6125 g/cc
No. A large object with a low density can have a lower mass than a smaller but denser object. for example, a 10 centimeter cubic block of ice has a mass of about 0.92 kilograms. A 5 centimeter block of (one eighth the volume) has a mass of 2.4 kilograms.
Density = Mass/Volume = 962/350 = 2.7485 grams per cubic centimeter
Divide the mass of the object by the object's volume. For example, a 20 cubic centimeter block that weighs 40 grams would have a density of 2 grams per cubic centimeter (or milliliter), or abreviated as 2g/mL
Density = Mass/Volume = M/(L*H*W) = 10/(58*24*20) = 10/27840 = 0.00036 grams per cm3. This is totally unlikely since even light balsa has a density of more than 0.1 g/cm3
If the density of the block is less than the density of water, then the block will float. Density of water is close to 1 gram per cubic centimeter. So measure the block and calculate its volume (Length x Width x Height). Use a scale to find the block's mass. Then divide mass/volume to calculate density. If you've measured in grams and centimeters, then the units will be g/cm³, then compare this to 1 g/cm³.
density of aluminum block
-4.22
Volume is a measure of size. A block of gold that is 1 centimeter on each side is, (wait for it!) 1 cubic centimeter in volume. If it is 1 inch on each site it would be 1 cubic inch in volume.
You need to know the density o f Mg D = Mass/Volume Mass = Density * volume Density= 1.74 grams per cubic centimeter Volume = 2.5 * 3.5 * 1.5 Mass = Density * volume
the density is 657.0987536438347355
Density = Mass/Volume