First you must remember the first rule.which is
pay attention in class then the second rule dont ask or you'll look stupid
Liters is a measure of volume and kg is a measure of mass. To convert one to the other, you need to know the density (g/ml or kg/L) of the substance.
To find the density, you need to convert the mass to a suitable unit. 3.40 oz is equivalent to approximately 0.0964 kg. Then, you can use the formula: Density = mass/volume. Plugging in the values gives a density of 0.0000815 kg/L.
To convert the density of water from CGS (g/cm^3) to SI (kg/m^3), you can use the conversion factor 1 g/cm^3 = 1000 kg/m^3. Simply multiply the density in CGS units by 1000 to get the density in SI units.
To convert 25 kg of Compressed Natural Gas (CNG) to liters, you need to know the density of CNG. The density of CNG can vary, but on average it is around 0.66 kg/L. Therefore, 25 kg of CNG would be roughly equivalent to 25 kg / 0.66 kg/L ≈ 37.88 L of CNG.
It is not possible to directly convert liters to kilograms for petroleum, as the density of petroleum can vary. However, on average, the density of petroleum is around 0.75 kg/liter. So, 1 liter of petroleum is approximately 0.75 kilograms.
To convert cream from kilograms to liters, you need to know the density of the cream. The density of cream can vary depending on the type and fat content. Once you have the density, you can use the formula: volume (liters) = mass (kilograms) / density (kg/L) to convert it.
To convert liters to kilograms, you need to know the density of the substance you are working with. The density of water is approximately 1 kg/L. Therefore, to convert 3.5 liters of water to kilograms, you would multiply 3.5 by 1, giving you 3.5 kg. If you are working with a substance other than water, you would need to find its specific density and use that in the conversion calculation.
To convert mass (kg) to volume (cubic meters), you need to know the density of the substance. Without the density, you cannot accurately convert 400 kg to cubic meters. Density is needed to convert mass to volume.
The conversion from milliliters (ml) to kilograms (kg) depends on the substance being measured. The relationship between milliliters and kilograms is based on the density of the substance. To convert, you need to know the density of the substance and use the formula: volume (in ml) x density (in kg/ml) = mass (in kg).
You would need the density of the substance.
Divide by its density.
You cannot directly convert these. You need to know the shape and the other dimensions to first calculate the volume. Then use the density of material to convert to weight.
To convert 100 kg to cc, you need to know the density of the substance you are working with. The formula for converting mass to volume involves multiplying the mass (in kg) by the reciprocal of the substance's density (in kg/cc). This will give you the volume in cubic centimeters (cc).
To convert cubic meters (m^3) to kilograms (kg), you need to know the density of the substance in question. The formula for this conversion is: mass (kg) = volume (m^3) x density (kg/m^3). So, if you have the density of the substance, you can multiply the volume in cubic meters by the density to get the mass in kilograms.
Liters is a measure of volume and kg is a measure of mass. To convert one to the other, you need to know the density (g/ml or kg/L) of the substance.
To find the density, you need to convert the mass to a suitable unit. 3.40 oz is equivalent to approximately 0.0964 kg. Then, you can use the formula: Density = mass/volume. Plugging in the values gives a density of 0.0000815 kg/L.
To convert tin density to liters, you would need the volume of the tin as well. Once you have the density of tin (in units such as g/cm^3 or kg/m^3), you can use the formula: volume (in liters) = mass / density. This will give you the volume of tin in liters.