No, because of the law of conservation of mass.
it turns into a liquid
After gas is used up, its mass is typically converted into other forms of matter or energy through combustion or chemical reactions. For example, in a car engine, carbon dioxide and water can be produced after the gasoline is burned.
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Many types of gasoline are prepared; the mass is between 4,6 g and 5 g.
Gasoline has greater mass than water because gasoline is less dense than water, meaning the same volume of gasoline weighs more than the same volume of water.
Not sure that either water or gasoline have litters, but 1.00 litres of water does have greater mass than 1.00 litres of gasoline.
To calculate the percentage of mass lost for bicarbonates, you would first determine the initial mass of the bicarbonate compound. Then, subtract the final mass after the reaction or process from the initial mass to find the mass lost. Finally, divide the mass lost by the initial mass and multiply by 100 to get the percentage of mass lost.
When something is burned, its mass remains the same. The substances that are being burned undergo chemical reactions, where they are broken down into different molecules. However, the total mass of the substances before and after the burning process remains constant due to the law of conservation of mass.
The volume of gasoline is exactly the same as how much of it you have, like 8 fluid ounces, 2 gallons, etc. The mass of gasoline also depends on how much of it you have, just like any other substance. One gallon of gas has about 2.84 kilograms of mass.
The density of gasoline typically ranges from about 0.71 to 0.77 grams per milliliter. Using an average density of 0.74 g/ml, the mass of 75 ml of gasoline would be approximately 55.5 grams (75 ml x 0.74 g/ml = 55.5 g). However, the exact mass can vary depending on the specific formulation of the gasoline.
To calculate the mass of octane burned, we can use the heat of combustion of octane which is 5470 kJ/mol. First, convert the given energy to kilojoules per mole. Then, use the molar mass of octane to convert moles to grams. This will give you the mass of octane that must be burned.
The mass flow rate of gasoline from a pump depends on the pump's flow rate and the density of gasoline. It is typically measured in kilograms per second or pounds per hour. The mass flow rate can be calculated by multiplying the volumetric flow rate (in liters per minute or gallons per hour) by the density of gasoline (in kg/L or lb/gal).