Yes.
Solids are difficult to deform because they have a rigid crystal structure.
Gases are easy to deform because they are free-flowing and compressible.
Liquids can be deformed (e.g. by pouring), but are difficult to compress, thus limiting the forms it can take.
Yes, they are not rigid at all!
Yes
SOLIDS
Less bonding between the molecules.
Denser than gases but (most often) less dense than solids.
Because convection occurs by convection currents. Convection currents occur as a result of the movement of a body. Since solids cant move, convection only occurs in fluid, i.e., liquids and gases
When a solid, liquid or gas is heated the particles in the substance speed up and gets less dense. The particles also spreads out.
When a solid, liquid or gas is heated the particles in the substance speed up and gets less dense. The particles also spreads out.
iphu
Yes, it is true.
Less bonding between the molecules.
Because they conduct heat less efficiently than do liquids or solids.
Solids are less changed in volume by pressure than fluids (liquids or gasses or plasmas) because the atoms or molecules in solids are more closely bound by the chemical bonds that form them. JCF
Particles. Just like liquids and gases. The difference between them is that solids have tighter packed particles that are less able to move freely
Denser than gases but (most often) less dense than solids.
solid is a state in which molecules are closely packed than liquids and gases. the inter molecular distance between the molecules of solids are less or negligible.thats why the solids are not compressible
The solubility of solids and liquids show virtually no changes with pressure. However, solubility increases with pressure in the solubility of gases in liquids.
Yes, you can compress gases, liquids, and solids. However, liquids and solids are MUCH less compressible than gases, and for many practical purposes you can consider them "incompressible". This means that a high pressure will only cause a very small change in volume.
Liquids are less common than solids and gases on Earth because of the specific conditions required for them to exist. Liquids require a specific range of temperature and pressure to be present. Additionally, liquids can easily change into gases due to the mobility and energy of their particles, which further decreases their prevalence compared to solids and gases.
The gravitational pull on liquids can be more noticeable than on solids because liquids are less rigid and have the ability to flow and deform. This allows liquids to respond more readily to the gravitational force, creating noticeable effects such as waves, tides, and the movement of liquids in containers. Solids, on the other hand, typically have a fixed shape and are less responsive to gravitational forces.