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How do you convert volume fraction into density fraction?
volume = mass/density and density = mass/volume
How do you convert pound to barrels using density?
Volume = Mass/Density.So, if you know the density in terms of pounds per barrel, simply divide the mass by the density. If not, eitheruse dimensional analysis to convert the density from the given units to pounds per barrel, orcalculate the volume in the units used for the density and then conversion to barrels.
How do you Convert pounds of chlorine to gallon?
You need to know the density of the chlorine which is affected by the temperature and pressure at which the chlorine is. Once you know the density, you can convert it using: density = mass/volume → volume = mass/density. You'll need to know the density in pounds per gallon.
How do you convert 15.88 kg to gallons?
You would need the density of the substance.
How do you convert cc into g?
you need the density of the object in g/ml. Then you multiply the cc by the density and you get mass in g. If it is water, it is 1
How do you convert 20 kilograms mass to density?
You cannot. Density = Mass/Volume so without the volume of the substance in question, you cannot convert mass into density.
How do you convert displacement in mL to newtons?
To convert displacement in mL to newtons, you would need to know the density of the substance in question. The formula to convert displacement in mL to newtons is: Force (N) = Displacement (mL) x Density (g/mL) x 9.81 (acceleration due to gravity in m/s^2). You need to multiply the displacement in mL by the density of the substance and the acceleration due to gravity to get the force in newtons.
How do you convert volume fraction into density fraction?
volume = mass/density and density = mass/volume
An object with a mass of 4.6 kilograms and a volume of 0.0025 cubic meters is submerged in water. What is the buoyant force on the object?
The buoyant force is equal to the amount of water displaced. Multiply the volume of the object by the density of water - then convert that to a force (at about 9.8 newton/kilogram).
How can you convert mass to volume?
To convert mass to volume, you need to know the density of the material. The formula for this calculation is: Volume = Mass / Density. This formula allows you to determine how much space a specific mass of a substance will occupy based on its density.
How do you convert 0.375G to mL?
To convert grams to milliliters, you need to know the density of the substance. The formula to convert grams to milliliters is: mass (g) = volume (mL) x density (g/mL). Therefore, you would need to know the density of the substance (in g/mL) in order to convert 0.375g to mL.
How do you convert density equals mass over volume?
It depends on what you wish to convert it to!
Convert tonnage into cubic yard?
To convert tonnage to cubic yards, you need to know the density of the material. The formula to convert tonnage to cubic yards is: (Tonnage / Density) * 1.35. This formula assumes a standard density of 1.35 tons per cubic yard.
How would you convert 900Mg into cc?
To convert milligrams (mg) to cubic centimeters (cc), you need to know the density of the substance. The conversion will depend on the density of the substance in question.
What is force speed and density how are they connected?
In fluid mechanics, the force density is the negative gradient of pressure. It has the physical dimensions of force per unit volume.
How do you convert API gravity to density?
To convert API gravity to density in g/cm^3, you can use the formula: Density = 141.5 / (API gravity + 131.5). This formula is derived from the relationship between API gravity and density in the petroleum industry.
Why when density increase buoyancy force increase?
When density increases, the buoyancy force increases because the difference in density between the object and the fluid it is immersed in also increases. This difference in density creates a greater upward force, which is the buoyant force. This is because as the object's density increases relative to the fluid, more fluid needs to be displaced to counteract the weight of the object, resulting in a greater buoyant force.
