http://www.jtbaker.com/msds/englishhtml/s4034.htm
The specific gravity of Sodium Hydroxide (NaOH) is 2.13.
The density of Water (H20) is 62.43 lbm·ft−3.
So, the density of NaOH = 2.13 * 62.43 = 132.9759 lb/ft^3
6.45 g/cc (grams per cubic centimeter) .234 lb/in3 (pounds per cubic inch)
74.009 pounds per cubic foot is the density of nitrobenzene at 100 degree Fahrenheit.
Granite and salt have a significantly different density. Granite has a density of 2.63 grams per cubic centimeter on average. With a normal density of 2.17 g/cm3, salt (sodium chloride) is less dense. In other words, granite is heavier or denser than salt. Because the two materials' compositions and structures differ, the two materials have different densities.
Yes, density and volume are related. Let's look at the two and sort things out. Volume is the term we apply to the amount of space something takes up. If we use the example of a block of lead that is one foot on each edge, we have a cubic foot of lead. The lead has a volume of one cubic foot, and it is taking up one cubic foot of 3-dimensional space. That's volume. Density is the amount (mass) of a substance for a given volume of that substance. In the case of lead, that cubic foot of the metal will weigh a bit over 700 pounds. As we have a mass of lead (the approximately 700 pounds) and a volume of lead (the cubic foot), we can say that the density of lead is about 700 pounds per cubic foot. Certainly this is an approximation, and we have to be a lot more accurate when we head off into the chemistry lab. But the example using the cubic foot of lead is a fairly graphic one and is pretty easy to visualize.
2.7T/m3 (+/- 10%). The above answer is for solid rock, generally not crushed stone. Crushed stone of uniform size has a nominal density of 100 pounds per cubic foot (1.6 Metric Tons per cubic Meter). If the crushed stone is a mixture of various sizes, then the open spaces that would be present in crushed stone of uniform size will be filled somewhat by the smaller sizes, and density increases. Typical effective density here ranges from 120 - 140 pounds per cubic foot (1.9 - 2.2 Metric Tons per cubic Meter). Solid Rock will be close to 150 - 170 pounds per cubic foot (2.4 - 2.7 Metric Tons per cubic Meter). Crushed stone density is variable depending on the type of stone, the stone crushing machinery, and how the crushed stone is sorted after crushing.
Sodium Bicarbonate, NaHCO3: Specific Gravity 0.97 Thus, 60.555 122 016 pound/cubic foot
14,300 pounds. Sand has a density of 100 pounds per cubic foot.
It could be pounds per cubic inch, or pounds per cubic foot, or tons per cubic yard. The only substance I know in fps is water which is 62.4 pounds per cubic foot.
It ranges from 0.033 pounds per cubic inch to 0.043 pounds per cubic inch.
There is no such thing as a 'cubic square inch'. The density of aluminum is 0.0858 pound per cubic inch. (rounded)
Stainless Steel 321 has density of 0.29 pounds per cubic inch, which is 8.0272 grams per cubic cm.
You need to find the density of helium in pounds per cubic foot. Then since density is mass/volume, divide the mass by the density. You may find getting the density into the units you need to use a challenge.
0.4 pounds per cubic feet - a very massive gas!
g/c3 (grams per cubic centimeter) or lb/ft3 (pounds per cubic foot)
The density is 50 lbs/yards3
The density of PVC is 1390kg/m3
It could be pounds per cubic inch, or pounds per cubic foot, or tons per cubic yard. The only substance I know in fps is water which is 62.4 pounds per cubic foot.