This is not a proper conversion. Cubic centimeters (cc) is a measure of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
Depending on the species, it ranges from 0.35 g/cc to 0.5 g/cc
The density of lead is 11.34 g/cc Therefore the volume of 2 g of lead will be 2/11.34 = 0.1764 cc
This is not a valid conversion. Cubic centimeters (cc) is a measure of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
Density = Mass/Volume = 9g/2cc = 4.5 g per cc.
This is not a proper conversion. Cubic centimeters (cc) is a measure of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
140 cc = 70 g powder
The element Platinum (Pt) has a density of 21.45 g/cc .1000 g ÷ 21.45 = 46.62 cc.
Conversion: Naptha is 0.75 g / cc or 1.333 cc/g Conversion: 1000 cc = 1 l Conversion: 453.59237 g = 1 pound. Conversion: 2000 pounds = 1 ton 1 ton * 2000 lb/ton * 453.59237 g/lb * 1.333 cc/g * 0.001 l/cc = 1209.579653 liters.
This is not a valid conversion. Cubic centimeters (cc) is a measure of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
earth ----- 5.515 g/cc mercury---5.43 g/cc Venus---- -5.24 g/cc mars ------3.94 g/cc That is ALL the terrestrial planets :) if this is fer an assignment good luck
484 million of them are.
There are 12 1/10 forties in 484 (484/40 = 12.1).
you need the density of the object in g/ml. Then you multiply the cc by the density and you get mass in g. If it is water, it is 1
The basic measurements should be reported to the accuracy of the measuring equipment. For any derived units, you should give the results to an appropriate degree of accuracy which takes account of the possible measurement errors. For example, if the mass of an obect is 50 grams (accurate to 1 gram) and the volume is 6 cc (accurate to 1 cc), then the calculated density is 8.333... g/cc But, the true mass could be as low as 49.5 g and the true volume as high as 6.5 cc giving a density as low as 7.6 g/cc. or the true mass could be as high as 50.5 g and the true volume as low as 5.5 cc giving a density of 9.2 g/cc. To give the density as 8.33 g/cc is giving it a spurious degree of accuracy which your measurement equipment does not justify. You need to report it as 8 g/cc or as 8.3 g/cc with a range of 7.6-9.2 g/cc. Error analysis is an important but often overlooked branch of mathematics.
density = mass/volume → density = 84 g / 12 cc = 7 g/cc = 7 g/cm³ = 7 g/ml
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Depending on the species, it ranges from 0.35 g/cc to 0.5 g/cc