Density for rhodium cannot be measured in grams per cm squared.
The density of germanium is approximately 5.32 grams per cubic centimeter.
Density=mass per volume =1g/cm cube density of 170mL water=170g per 170mL =1g/cm cube
To find the number of atoms per cm^3 from density, you first need to know the atomic mass of the material. Calculate the molar volume (cm^3/mol) using the molar mass of the material. Then convert to cm^3/atom by dividing by Avogadro's number (6.022 x 10^23). Finally, divide the material's density by the molar volume to get the number of atoms per cm^3.
Take a specific gravity test. First weight the object in grams Second Find how much water it displaces using a fixed amount of water in a measurable crucible with ml measurements. Place the object in the water. Remember 1 ml = cm^3 (cubic centimeter) volume Weight in grams divided by volume equals density (Specific Gravity) Take the result and compare with the Specific Gravity of Rhodium 12.45 grams/cm^3 (this is for 100% pure) You are welcome
The non-metal with the highest density is iodine, with a density of 4.92 grams per cm**3.
The density of silver is given as 10.5 g/cm^3, not g/cm^2. To find the volume of 34 grams of silver, you would divide the mass by the density. So, the density of 34 grams of silver would be 3.24 cm^3.
Density is not mass per area, so this is invalid.
The density of the solid is about 0.86 g/cm3
cm-1 or "per cm"
136
2500 cm squared
Volume is measured in cm^3, not cm! The density is 14.375 grams per cm^3.
To convert square centimeters (cm²) to gram square meters (g/m²), you would need to know the density of the material. Once you have the density, you can multiply the area in cm² by the density to get the mass in grams, and then convert the mass to grams per square meter by dividing by the area in square meters. The formula would be: (Area in cm² * Density) / 10,000.
The density of germanium is approximately 5.32 grams per cubic centimeter.
6.4516 cm squared
No, g/cm is not a unit of density. Density units are expressed as mass/volume, typically in g/cm^3 or kg/m^3. The unit g/cm represents mass per length, not mass per volume.
The density is 2 g/cm3