1 litre of furnace oil will have a mass of 0.998 kg.
The temperature of the oil is irrelevant.
you would convert it buy using specific gravity. the specific gravity of fuel oil is 0.893 at 60F. so that said 1 liter of furnace oil would weigh 893g. one metric tonne of furnace oil would equal roughly 1120 liters
Specific Gravity.
It is called the specific gravity.
The change in density of a fluid can be neglected if the temperature change in it is small. This assumption is however not applicable when buoyant forces are in consideration as gravity changes the specific weight of a fluid considerably.
If it is water then 2.5 ml is 2.5 mg. If it not water then you need to know the specific gravity of the fluid and and convert ml to mg by measuring ml and multiply by specific gravity
.890 to .950
To calculate the specific gravity of sodium silicate at different temperatures, you can refer to a specific gravity-temperature chart for sodium silicate or use the formula: specific gravity = (specific gravity at reference temperature) / (1 + thermal expansion coefficient * (T - reference temperature)), where T is the temperature at which you want to calculate the specific gravity. Ensure that the reference temperature and thermal expansion coefficient values are accurate for sodium silicate.
specific gravity of gasoline at 104 celsius
you would convert it buy using specific gravity. the specific gravity of fuel oil is 0.893 at 60F. so that said 1 liter of furnace oil would weigh 893g. one metric tonne of furnace oil would equal roughly 1120 liters
This ratio is called the specific gravity.
The factors that affect specific gravity include temperature, pressure, and the density of the substance being measured. Temperature changes can cause the volume of a substance to expand or contract, affecting its specific gravity. Pressure changes can also alter the density of a substance, impacting its specific gravity measurement.
Mercury has one of the highest specific gravities among common liquids at room temperature. Its specific gravity is about 13.6 times that of water.
Specific gravity, (similar to density) has no meaning for a gas, since the density varies with pressure and temperature.
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Water temperature can affect the specific gravity of soils because it can impact the density of water. As the water temperature increases, its density decreases, which can lead to variations in the specific gravity readings of soils. It is important to account for the temperature of the water when determining the specific gravity of soils to ensure accurate results.
No, specific gravity is a unitless value that represents the density of a substance compared to the density of water. It is a ratio of the density of the substance to the density of water at a specific temperature.
The specific gravity of kerosene typically ranges from 0.78 to 0.82, depending on the type and temperature of the kerosene. This value indicates that kerosene is less dense than water, as water has a specific gravity of 1.