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.
Assuming you are talking about water, answer is 40. mL. Here's why: The specific gravity of water is 1. And 1 gal of water weighs 8.34 lbs. Since density = SPG x 8.34lbs/gal then the density of water is 8.34 lbs/gal. Since there are 3.785 liters in a gallon. And 454 grams in a lb, then: 8.34 lbs/gal x gal/3.785 L x 454 g/ lb = 1000 grams/liter 1000 grams/liter = 1Kg/1L = 1g/1mL Now using ratios we can solve your problem: ? mL/40 grams = 1mL/1g gives 40. mL
1 plutonium (solid) gallon = 71,337 kg
We know that Q=m.s.t, where Q= Heat, s= Specific heat of the substance, t=temperature(Difference in temperatures) =>s= Q/m.t =>s=525/(25X15) =>s=525/375 =>s=1.4 cal/g/0c Specific heat of the substance is 1.4 cal/g/0c.
sg = 2sg = 2sg = 2sg = 2
Mass (grams) to volume (millilitres) conversion cannot be performed unless the specific gravity of the substance is known.
That depends on what substance, if any, is in the gallon. If the gallon is empty, then the mass in it is zero grams.
Density = Mass/Volume = 10.31/10.00 = 1.031 grams/ml
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
7
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
start with known values Specific gravity = 1.0 for water weight = 100 pounds 100pounds/8.36 pounds per gallon = 11.96 gallons ------------------------------------ Specific gravity = 1.5 for unknown liquid weight = 100 pounds 100pounds/ (8.36 pounds per gallon of water * 1.5) = 7.97 gallons At least that's how I wuold do it....
That is approximately 28.34 grams
"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.
The specific gravity is approx 0.86. The density of the substance is 0.86 grams per millilitre. You need to divide this number by the density of pure water, in the same units. At 20 deg C (room temperature) the density of pure water is 0.9982 grams per ml. So the specific gravity of the liquid is 0.86/0.9982 = 0.8616, approx.The fact that there are 30 ml of the liquid is totally irrelevant.