The first reference I consulted on line lists the density of gold as 19.32 gm/cm3,
whereas the density of your sample is 19.286 gm/cm3.
The identity of the sample is iron.
Silver is the identity of this sample.
iron/7.87
Wha is the answer
Lead
160 grams
2.5 g/ml... Do your homework. =P
The volume of a sample of water is 20 cm3. The mass of this sample is closest to
Divide 158 by 156. The answer is the density in grams per ml. In this case, very close to 1 g/ml Density = MASS divided by VOLUME
WE know that Density D =mass/volume. Volume V = M/D =6.3/1.26 =5cm3.
Density = mass/volume, so:36 grams/ 12 milliliters3 grams/ milliliter
mercury
The idea is to divide the mass by the volume.
ur gay lzzzzz
0.000882 grams
160 grams
Density = mass/volume = 22/10 = 2.2 grams per cm^3.
2.5 g/ml... Do your homework. =P
Based on the formula Desnity= Mass/Volume. The answer would be 13.5 g/cm3
The volume of a sample of water is 20 cm3. The mass of this sample is closest to
Divide 158 by 156. The answer is the density in grams per ml. In this case, very close to 1 g/ml Density = MASS divided by VOLUME
1 gm/ml