Because liquid can't retain its shape. It needs to be in a container to have a definite form.
Use a container with a liquid (water). Mark the level of the liquid on the container. Insert the small solid sample. Mark the level of the liquid now on the container. compute the difference between the two marks. You can use traditional computation for calculating volume.
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).
You can use some type of calibrated container: a graduated cylinder or beaker, generally. Another method would be to measure the mass of the liquid (any container will do, after you have tared the container) and divide by the density of the liquid (if you know it). These work for any liquid as long as it doesn't evaporate quickly. Also, the volume of a liquid may depend on temperature, so the volume at zero Celsius will be different from the volume at 98 Celsius, for example.
a gratuated cylinder in which you measure the volume of a liquid(volume same as mass)
SI unit do scientists use to measure a liquid is cubic meter ,that is,m^3.SI derived unit, the cubic metre. The volume of a container is generally understood to be the capacity of the container
Measure the container itself, or measure the mass of the liquid and the container and find the density of that certain liquid has and isolate for the volume.
I would place it in a container full of liquid after measuring the liquid. I would measure the amount of liquid displaced by the object. That amount is equal to the volume of the irregular object if it is fully submerged in the liquid.
I would place it in a container full of liquid after measuring the liquid. I would measure the amount of liquid displaced by the object. That amount is equal to the volume of the irregular object if it is fully submerged in the liquid.
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.
Use a container with a liquid (water). Mark the level of the liquid on the container. Insert the small solid sample. Mark the level of the liquid now on the container. compute the difference between the two marks. You can use traditional computation for calculating volume.
A graduated container.
To measure the volume of a liquid, you can use a graduated cylinder.
volume
Use a graduated cylinder to measure liquid volume.
the instrament you use to measure liquid volume are as follows .they are burette ,pipette ,beaker , etc,
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).
You can use some type of calibrated container: a graduated cylinder or beaker, generally. Another method would be to measure the mass of the liquid (any container will do, after you have tared the container) and divide by the density of the liquid (if you know it). These work for any liquid as long as it doesn't evaporate quickly. Also, the volume of a liquid may depend on temperature, so the volume at zero Celsius will be different from the volume at 98 Celsius, for example.