7
16.2 (g) over 8.1 (mL) . So spec. grav. is 2.0 g/mL
Density = Mass/Volume = 10.31/10.00 = 1.031 grams/ml
99.84022
Density = Mass/Volume =321g/45cc =7.13g/cc or 7.13g/ml Spec Gravity = density of liquid / density of water =7.13/1 7.13
the specific gravity of galena is 7.4-7.6, so the average is 7.5
Millilitres are units of volume and grams are units of mass or weight. They cannot be converted into each other.
sg = 2sg = 2sg = 2sg = 2
Mass (grams) to volume (millilitres) conversion cannot be performed unless the specific gravity of the substance is known.
We find that 3.53 is the spee gee (specific gravity) of our mineral. Specific gravity is a measure of the density of a substance compared to the density of water. The density of water is 1 g/ml and we just need to do some simple math. Since water is 1g/ml, we just need to find out the density of our sample in g/ml and drop the units. Note that specific gravity has no units associated with it. It is a number. Our mineral sample weighs 1066 grams, and its volume is 300 ml. 1066 / 300 = 3.53333....
Density = Mass/Volume = 10.31/10.00 = 1.031 grams/ml
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
volume of substance = 50/1000000 x 15000 = 0.75 liters = 750 cubic centimeters mass = specific gravity x volume = 1.31 x 750 = 982.5 grams
Silver
To convert cc to gram, one must multiple the specific gravity of the substance by the number of ccs to convert to a weight in grams.
This is called the Specific Gravity of a substance. The density of the material divided by the density of water yields the specific gravity, a specific gravity greater than 1 indicates the substance will sink in water. A specific gravity less than 1 indicates the substance will float in water. Because the units expressed in density cancel each other out specific gravity has no unit dimensions. example: substance 1 has a density of 12 grams per ml water has a density of 1 g/ml then substance 1 has a specific gravity of 12. 12 g/ml / 1 g/ml = 12 *note: for true specific gravity the atmospheric pressure, absolute , and the temperature absolute of both the sample material and the water must be indicated in the calculations as well. ** for gasses the constant or reference medium is air
That is approximately 28.34 grams
the specific gravity is how the density of the object compares to the density of water. Water's density is 1gram per milliliter. We just need to figure out the density of the object. The object is .8 kg and it displaces 500mL of water, so the density is the mass divided by the volume. Since the density of water is given in grams, we have to convert the objects mass from kg to g and then we can get the density. .8kg * 1000g/kg = 800 grams so, 800g/500ml = 1.6grams/mL this is the density. So divide the density of your object by the density of water, which is 1g/mL, you get 1.6 as the specific gravity. This means the object is 1.6 times more dense than water.
the specific gravity is how the density of the object compares to the density of water. Water's density is 1gram per milliliter. We just need to figure out the density of the object. The object is .8 kg and it displaces 500mL of water, so the density is the mass divided by the volume. Since the density of water is given in grams, we have to convert the objects mass from kg to g and then we can get the density. .8kg * 1000g/kg = 800 grams so, 800g/500ml = 1.6grams/mL this is the density. So divide the density of your object by the density of water, which is 1g/mL, you get 1.6 as the specific gravity. This means the object is 1.6 times more dense than water.