0.75 kg/L
To find density, you must use the formula of D=M/V or density = mass divided by volume. You have given us 9g as a volume, but that should be either liters or some other measurement of volume. I'll assume liters. 45/9 = 5. So, The density of a solid that has a mass of 45 grams and a volume of 9.0 liters would be 5 grams/liter.
the density of an object thats has a mass of 0 grams and a volume of 6 liters is 36 g/l
A weight of !,000 kilograms equals one metric ton. Liters are a measure of volume, not weight.
A liter is a unit of volume, not a unit of mass (or weight) like the pound. To convert between mass and weight, you need to know the density of a substance. The formula that relates volume and mass is: mass = volume x density You'll probably find density in units such as kilogram / liter (or the equivalent gram/cubic centimeter); if you use this in the formula, you'll get the mass in kilograms. You can then convert that to pounds.
It depends on what information you have. If the liquid is stored in a container of which the dimensions are known, then you must calculate the volume of the container. You can simply search google for the formulae for the volume of a cube, cylinder, sphere etc. If the dimensions are not known, but the weight and density of the fluid is, then the volume can be calculated as: volume = weight (divided by) density
It would depend on the density of the substance. Litres measure volume; kg measure weight.
It doesn't matter whether a container has the form of a cylinder, or some other shape. Liters is a measure of volume, kilogram is a measure of mass. Therefore, to convert from liters to kilograms, you have to know the density of the substance you will put into the container. Different substances have different densities, i.e., they can have more or less kilograms per liter. For example, water has a density of 1 (kilogram per liter), while lead has a density of 11, and gold 19 (approximately).It doesn't matter whether a container has the form of a cylinder, or some other shape. Liters is a measure of volume, kilogram is a measure of mass. Therefore, to convert from liters to kilograms, you have to know the density of the substance you will put into the container. Different substances have different densities, i.e., they can have more or less kilograms per liter. For example, water has a density of 1 (kilogram per liter), while lead has a density of 11, and gold 19 (approximately).It doesn't matter whether a container has the form of a cylinder, or some other shape. Liters is a measure of volume, kilogram is a measure of mass. Therefore, to convert from liters to kilograms, you have to know the density of the substance you will put into the container. Different substances have different densities, i.e., they can have more or less kilograms per liter. For example, water has a density of 1 (kilogram per liter), while lead has a density of 11, and gold 19 (approximately).It doesn't matter whether a container has the form of a cylinder, or some other shape. Liters is a measure of volume, kilogram is a measure of mass. Therefore, to convert from liters to kilograms, you have to know the density of the substance you will put into the container. Different substances have different densities, i.e., they can have more or less kilograms per liter. For example, water has a density of 1 (kilogram per liter), while lead has a density of 11, and gold 19 (approximately).
The idea is to divide the mass by the volume. If, for example, the mass is in kilograms and the volume is in liters, then the density will have the units kilogram/liter.
Divide the density in kilograms per liter by the volume in liters
it depends upon the density of the juice. mass=density*volume so when you multiply density of the juice by 20 you will get your answer.
There is no standard conversion - kilogram is a unit of mass, liter is a unit of volume. For a specific substance, you can convert from kilograms to liters if you know the substance's density, using the formula:mass = volume x densityThere is no standard conversion - kilogram is a unit of mass, liter is a unit of volume. For a specific substance, you can convert from kilograms to liters if you know the substance's density, using the formula:mass = volume x densityThere is no standard conversion - kilogram is a unit of mass, liter is a unit of volume. For a specific substance, you can convert from kilograms to liters if you know the substance's density, using the formula:mass = volume x densityThere is no standard conversion - kilogram is a unit of mass, liter is a unit of volume. For a specific substance, you can convert from kilograms to liters if you know the substance's density, using the formula:mass = volume x density
6 kilograms / 8 liters = 6,000 grams / 8,000 cc = 0.75gram per cc. The jug will float in water.
Density is mass divided by volume. In SI (metric) units, if mass is in kilograms, and volume in cubic meters, then the density will be kilograms / cubic meters.Density is mass divided by volume. In SI (metric) units, if mass is in kilograms, and volume in cubic meters, then the density will be kilograms / cubic meters.Density is mass divided by volume. In SI (metric) units, if mass is in kilograms, and volume in cubic meters, then the density will be kilograms / cubic meters.Density is mass divided by volume. In SI (metric) units, if mass is in kilograms, and volume in cubic meters, then the density will be kilograms / cubic meters.
30 Liters of water weighs 30 kilograms. Other substances have different densities and weights.
The density of any object is equal to its mass divided by its volume. At a mass of 129.6 kilograms and a volume of 144 liters, the substance has a density of .9 kilograms per liter.
The volume of a kilogram varies depending on the substance being measured, as it is a unit of mass and liter is a unit of volume. The conversion from kilograms to liters also depends on the density of the substance. To find the volume in liters, you need to know the density of the material.
There is no fixed conversion rate. One is a unit of mass, the other of volume. For a given substance, you can look up its density, then use the formula: mass = volume x density.