Find the mass of an empty container using a balance. Fill the container with 100 ml of water and measure the mass again, The difference between the two measurements is the mass of 100 ml of water.
You can measure its dimensions, then calculate the volume from a formula for the specific shape of the container, or you could fill it up with water, then pour that water into a graduated cylinder or other calibrated measuring instrument. Or if you know the density of water in your room (it varies with temperature, and any contaminants in the water), then you could measure the mass of the container, then fill it up with water and measure the mass again. Subtract the mass of the container and then divide by the density to determine the volume. Density of pure water is approximately 1 gram/cm3.
The mass of water is 1g per cm3
because when it contain water the mass of water will be the one to be obtained
No
There is no direct relationship between length and mass.
Find the mass of an empty container using a balance. Fill the container with 100 ml of water and measure the mass again, The difference between the two measurements is the mass of 100 ml of water.
Can be as high as 96%
An air mass that forms over water at high latitude is most likely cold. The air mass over the water would also be quite humid.
Take a small light beaker and fill half of it with the water mass
You can measure its dimensions, then calculate the volume from a formula for the specific shape of the container, or you could fill it up with water, then pour that water into a graduated cylinder or other calibrated measuring instrument. Or if you know the density of water in your room (it varies with temperature, and any contaminants in the water), then you could measure the mass of the container, then fill it up with water and measure the mass again. Subtract the mass of the container and then divide by the density to determine the volume. Density of pure water is approximately 1 gram/cm3.
The mass of the water would be 40g - 2g = 38g. The mass of the salt would be 2g.
Apply water to it or use high mass of sawdust.
No, as long as it is the same peice of ice. The volume and the density change but not the mass
No, high refractive index does not necessarily mean high molecular mass. Refractive index is a measure of how much a material bends light, which can be influenced by factors like the electronic structure and density of the material, in addition to molecular mass.
The mass percent of water would be too high if heating was insufficient to remove all of the water from the hydrated salt, as some water would still be present in the compound.
A mass of salt and water solution that has been left in a warm place for a long time becomes brine, and then eventually it becomes salt, because the water evaporates.