Density refers to the mass of a material in a given volume (same volume for all materials)
The same.
-- form them from substances with different densities Example: a small stone and a large ball of cotton
A small piece of matter. Depending on the context, it may be a grain of dust, or something much smaller, such as a molecule, an atom, or a subatomic particle.
Any amount of force, no matter how large or small, will increase or decrease the speed of any mass, no matter how large or small. But if you specify how much you want the object's speed changed and how quickly you want it done, then you have specified the acceleration you want. In that case, the larger the mass is, the more force it will take to accomplish that assignment.
A small piece of cloth is usually called a patch. A small piece of cloth could also be called a rag or a washcloth.
Density refers to the mass of a material in a given volume (same volume for all materials)
If the material is pure and homogeneous, i.e. "the same throughout", then the density is independent of the size of the sample. A chip the size of a pinhead and a chunk the size of a truck have the same density.
Small hypo densities are seen in bilatereral para ventricular region
atom
The same.
density has nothing to do with the size of an object in the way that you are thinking, density is the mass or weight of an object per unit of measurement Neither
operating software
-- form them from substances with different densities Example: a small stone and a large ball of cotton
A small piece of matter is known as a particle, which can be as tiny as an atom or subatomic particle. These particles are the building blocks of all matter and come in various forms such as protons, electrons, and neutrons. Understanding the behavior and interactions of these particles is fundamental to fields like physics and chemistry.
because if you walk on a large piece of glass then there is a possibility to cut your self alot but if you are on a small piece of glass then you probably you will not cut yourself
You think probable to atoms.
You build a "Large Hadron Collider".