Solids resist better to compression.
Solids resist compression because their particles are tightly packed together in a fixed position, providing structural stability. Liquids and gases, on the other hand, can be compressed since their particles are more free to move and are not held in a fixed position.
A compression wave is not matter, it is a transference of energy.
A liquid is a matter as it occupies space and has mass.
inertia
mass is the quantity of material in a substance, and volume is the space occupied. The density of a material is its mass (weight) per unit volume. Grams per cubic centimetre would be an example.
The state of matter that holds its shape is called solid. Other states such as liquid, gas, and plasma, do not hold their shape.
The state of matter a material is most likely to resist compression is liquid. Liquids cannot be compressed and this is what supports hydraulics.
Yes
A compression wave is not matter, it is a transference of energy.
Do you mean the states of matter? Solid, liquid and gas are the three (usual) states of matter (around here). Otherwise, matter is matter because it resists acceleration, it is attracted gravitationally, and (?) it occupies space.
A liquid is a matter as it occupies space and has mass.
Mass is measured in kilograms. It doesn't matter whether the material is solid, liquid, gaseous, or in some other state of matter.
inertia
Air is gas. there are 3 states of matter- solid, liquid and gas.
mass is the quantity of material in a substance, and volume is the space occupied. The density of a material is its mass (weight) per unit volume. Grams per cubic centimetre would be an example.
During the melting the structure of the material is destroyed and the liquid is a low oredered state of matter.
The state of matter that holds its shape is called solid. Other states such as liquid, gas, and plasma, do not hold their shape.
inertia this true