Each liquid has a different mass, depending on how much of the liquid is there.
It is a solid
wet and warm
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).
(Mass) State, like solid, liquid, or gas. Color, size, or density.
yes it can do you know how. how is because it is like,mass you know what mass is . its like all around you but yes liquid everywhere.
When the air mass is like the hot-air balloon =P
There is no such thing as liquid air since air is a mixture of gases. The individual gases, however, can be liquified.
The maritime tropical air mass is warm and humid.
Air has density and pressure because it has mass.Even though it doesn't seem like air has any mass.Yes,air has mass.
If a container has a mass of 150g and the mass of the liquid plus the container is 185g, then the mass of the liquid is 35g.
Each liquid has a different mass, depending on how much of the liquid is there.
Commercially sold oxygen is usually produced by fractionally distilling liquid air.
The reason why is because of air. Air is just made up of atoms and gravity works on holding down mass and air has no mass. Where water is a liquid and has mass so gravity holds it down. So when you jump in the water you have less mass then the water does so gravity does not work on you when in the water.
Objects float if they displace more than their own mass. This means that if when they are put into a liquid the mass (weight) of the volume of the liquid that "has to get out of the way" is greater than the mass of the object, it will float.An empty glass bottle floats in water because the bottle is filled with air, yet the bottle's shape keeps water out and the mass of the volume of the displaced water exactly equals the mass of the bottle (and the air inside).
First measure out a known volume of the liquid using a beaker or measuring cup, say a liter or 50 mililiters or something of the like, then measure the mass of that amount of liquid with a balance(remember to subtract the mass of the liquid's container), then divide that mass by the volume of liquid you've used and, hey presto, you have a density.
This is an air mass.