1 uk gallon = 4.546 litres = 4.546 kg water * 1.28 * 1 000 = 5 818.88 grams
1 us gallon = 3.785 litres = 3.785 kg water * 1.28 * 1 000 = 4 844.80 grams
489 grams
Grams is for mass, liters is for volume. Those are two very different things, but if you know the density for a specific substance, you can do the conversion.
Ah, what a lovely question! To convert 40 mg to ml, we need to know the density of the substance. Each substance has a different density, which affects how many milliliters are in 40 milligrams. If you let me know which substance you're working with, I can help you figure out the conversion.
1 plutonium (solid) gallon = 71,337 kg
A metric ton (1000 kg) of water occupies exactly one cubic meter. One cubic meter is 264.17 gallons.
That depends on what substance, if any, is in the gallon. If the gallon is empty, then the mass in it is zero grams.
Mass (grams) to volume (millilitres) conversion cannot be performed unless the specific gravity of the substance is known.
sg = 2sg = 2sg = 2sg = 2
The specific gravity is calculated by dividing the density of the substance by the density of water. Given that 10.00 ml of the substance has a mass of 10.31 g, you need to determine the density of the substance and the density of water at the same temperature. Then, divide the density of the substance by the density of water to find the specific gravity.
Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material. Specific gravity usually means relative density with respect to water.
To convert grams to liters, divide by the specific gravity. In this case, 500 grams divided by 1.08 (specific gravity) equals approximately 463.0 mL or 0.463 liters.
The density of the substance is calculated by dividing its mass (321 grams) by its volume (45 cc), which results in 7.13 g/cc. The specific gravity is the ratio of the density of the substance to the density of water at 4 degrees Celsius, which is 1 g/cc, so the specific gravity would be 7.13.
7
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
To prepare a solution of specific gravity 1.06, you need to dissolve a substance in water that will give you that specific gravity reading. The most common substance used for this is sugar, where a concentration of around 5.55% sugar in water would give you a specific gravity of 1.06. Alternatively, you can use a hydrometer to measure the specific gravity and adjust the concentration of your solution until you reach the desired value.
To find the volume of a substance when given its mass and specific gravity, divide the mass by the product of the specific gravity and the density of water (1000 kg/m^3). The formula is: Volume = Mass / (Specific Gravity * Density of Water).
"Gram" is a mass. "Gallon" is a volume of space. The number of grams of mass in 1.03 gallons of space depends on what substance you poured in there. If the gallon is empty, then there are no grams of mass at all in it.