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No. That would violate the Newtonian principle of Conservation of Mass.
To find the density of a liquid, you must find its mass and volume. To find the mass, use a triple beam balance, put the liquid into a container, weigh it, subtract the weight of the container, and that is how to get the mass. Then, to find the volume, use a graduated cylinder, put the liquid into the container, and then find the mark where the liquid line lands, and that is your volume. Then, divide your mass by your volume, and there is your density in grams per centimeter cubed (g/cm3).
a gratuated cylinder in which you measure the volume of a liquid(volume same as mass)
Mass is independent of the physical state of the substance.
Water
The density is the ratio mass/volume; increasing the the concentration the mass and density are increased.
The answer is simply no.
No. That would violate the Newtonian principle of Conservation of Mass.
Nothing. If the volume is increased, the mass also has to increase.
The mass of a liquid (or anything else) divided by the volume is defined to be its density.
You can dip the irregular solid in a water or other suitable liquid. This is how, you can measure the volume of the solid. The mass can be measured by weighing scale. Mass/volume = density. It is easy to measure the mass and volume of the liquid. First measure the mass the container. Then add the liquid to it. You will get the mass of the liquid. Then measure the volume of the liquid. Use the above formula to calculate the density of the liquid.
The mass of a liquid and the volume of it are not related, they have no bearing on one another. The mass and volume can change independently, in theory. They are related by the equation to calculate density. Density=Mass/Volume
matter is what has volume and mass also occupies space. It exists in three state namely: solid- has mass, volume and shape, Liquid- has volume and mass, and Gas- has volume and mass too.
To find the density of a liquid, you must find its mass and volume. To find the mass, use a triple beam balance, put the liquid into a container, weigh it, subtract the weight of the container, and that is how to get the mass. Then, to find the volume, use a graduated cylinder, put the liquid into the container, and then find the mark where the liquid line lands, and that is your volume. Then, divide your mass by your volume, and there is your density in grams per centimeter cubed (g/cm3).
The mass isn't changed. Since the volume is decreased, the quantity (mass/volume) is increased, meaning that the density is increased.
With the provided quantity of mass and density the volume of liquid would be 1000cm3. density = mass / volume → volume = mass / density = 2500 g / (2.5 g/cm^3) = 1000 cm^3 = 1 litre.
Find the volume then divide the mass by the volume.