Density is defined as the ratio between mass and volume. In this series, we will learn to know what density is. And, why density is important
#fluid
#fluidstatics
#density
#fluid
#fluidstatics
#density
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LearningTranscript
00:00Hi colleagues, welcome to the Diggu Science channel.
00:05As the first in a series of fluid physics courses, we will learn about density.
00:11We have three solid cubes.
00:15A cube is a geometric figure that has the same length, width and height.
00:20The side lengths of these three cubes are the same.
00:24The volume of each cube is the same.
00:27Thus, these three cubes are cubes that have the same shape.
00:33Are these three cubes really the same?
00:39Note, when each cube is weighed on a mass balance,
00:43the value displayed on the screen turns out to show a different number.
00:50This means that each cube has a different mass.
00:52Some have a larger mass. Some have a smaller mass.
00:59So, actually, each cube is not the same.
01:03There is something inside the cube that makes it different.
01:07Something that makes up the cube is different.
01:13Let's look at the cube on a smaller scale.
01:16It turns out that it is true. The atoms that make up the cube are different.
01:22The types of atoms are different.
01:25Or, the same atom but with a different arrangement.
01:30We need to differentiate each of these cubes.
01:34Because the object has a different mass even though the shape is the same.
01:39Density is defined as the ratio of mass to volume.
01:45Density is often symbolized as rho.
01:48Rho is equal to m per way.
01:53So, density is a quantity.
01:56Density is a quantity of mass.
02:00Density is a quantity of volume.
02:03Density is a quantity of mass.
02:06So, density is a quantity that is formulated based on definition.
02:11We don't need complicated mathematical analysis to get this equation.
02:21Objects that have a greater density are generally composed of more atoms.
02:28This causes the vacuum inside the object to be narrower.
02:32That is why density is often referred to as density.
02:38We will study this in more detail in the next series.