According to the question the mass appears to occupy 1-dimensional space which is not possible. As a result it is not possible to answer the question.
According to the question the mass appears to occupy 1-dimensional space which is not possible. As a result it is not possible to answer the question.
According to the question the mass appears to occupy 1-dimensional space which is not possible. As a result it is not possible to answer the question.
According to the question the mass appears to occupy 1-dimensional space which is not possible. As a result it is not possible to answer the question.
According to the question the mass appears to occupy 1-dimensional space which is not possible. As a result it is not possible to answer the question.
Formula for sphere volume: 4/3πr³ Plug in 18 for r; the volume is 24429 cm³. Density of iron: 7850 kg/m³ 24429 cm³ • 7850 kg/m³ = 191.76765 kg
43L of 18-k gold
No. One kg = 1000 grams, so 18000 grams = 18 kg.
18-carat yellow gold is typically 75% gold, 16% silver and 9% copper. It has a density of around 15.5 grams per cubic centimetre. 330 lbs is 149,6858.36 grams (453.592 grams per pound). This equates to 9657 cubic centimetres. So a container 20x20x24.14 centimetres would hold 330 lbs of 18-carat gold. To give the answer in imperial units would yield a box of volume 589.3 cubic inches. A box of size 8x8x9.2 inches would hold that gold.
18 k rose gold value per gram
Assuming you want density: 18 g/3 cm3 = 6 gcm-3
Density = mass/volume = 18/25 gcm-3 = 0.72 gcm-3
the pice of wood has a mass of 18 grams calculate it volume and density
Divide the mass by the volume and express the answer in terms of "units of mass per units of volume" - in this case, grams per cm^3..
Water (H2O) has a molar mass of 18 grams, if that's what you mean.
Rocks receive their densities by their mass divided by their volume. For example, if a rock has a mass of 9 grams, and a volume of 18 cubed cm, then the density would be 9/18 or .5 g/cm3.
A millilitre is a unit of capacity. A gram is a unit of mass. Without some other factor such as density, it would be impossible to calculate the mass of a capacity.
The density of the metal is 200 grams per 18 cubic centimeters, or 200/18 grams per cubic centimeter or 11.11 grams per cubic centimeter. We can also write our answer as 11.11 g/cc or 11.11 g/cm3 or 11.11 g-cm-3 depending on how we wish it to look. All these things say the same thing. To find the density of a material when we have a given mass and volume, we must find the mass per one unit of volume. This means dividing the volume units into the mass uints to generate that mass per one unit of volume figure. It is the mass per one unit of volume that is the density of a material.
18 grams
about 18 grams
It is water's molecular weight or mass number that equals 18 atomic mass units
12