187 US gallons is approximately 578 Kg.
There are 1000 kilograms (kg) in a metric ton (or tonne). And there are about 0.264 gallons in a litre. Also, the density of diesel fuel is right at about 0.85 kilograms per litre. Since you have a metric ton of diesel fuel, that is 1000 kilograms of diesel fuel, you need to know how many litres of diesel fuel you have. Divide 1000 kg by 0.85 kg/litre and you'll get about 1176.5 litres. Now convert that to gallons by multiplying 1176.5 litres by 0.264 gallons/litre and you'll get about 310.6 gallons of diesel fuel in that metric ton you started with.
To convert 50 kg of diesel fuel to gallons, you first need to know the density of diesel, which is approximately 0.832 kg/L. This means 50 kg of diesel is roughly 60.1 liters (50 kg ÷ 0.832 kg/L). Since there are about 0.264 gallons in a liter, 60.1 liters is approximately 15.9 gallons (60.1 L × 0.264 gal/L).
To convert 20000 kg of Jet A1 fuel with a specific gravity of 0.86 to liters, you would use the formula: Volume (liters) = Mass (kg) / Specific Gravity. Therefore, Volume = 20000 kg / 0.86 = approximately 23255 liters.
1.25
There are 2 different fuel types but Jet A is the most common. Jet A / Jet A-1: 0.775 to 0.840 kg/L Jet B: 0.751 to 0.802 kg/L
You would need the density of the substance.
The accepted average weight of Jet A fuel is 6.84 pounds per gallon based on specific gravity (but varies based on temperature, additives, etc.) The Boeing 747-400ER can carry more than 63,500 gallons of fuel which is about 434,340 pounds fuel load weight. Information provided by Jet Advisors
To convert 800 kg of gasoline to gallons, you need to know the density of gasoline. On average, gasoline has a density of around 6.3 pounds per gallon. Calculate the equivalent weight in pounds and then convert to gallons to get your answer.
73440
1/1.25=.80kg
Jet fuel is less dense than water, causing it to float on the surface. This is due to the fact that jet fuel consists of hydrocarbons that are lighter than water molecules. The difference in density between the two substances creates the floating effect.