Yes. Rock can be liquified by raising its temperature to that of the melting point of the mineral constituent with the highest melting point.
The centre of the Earth (the inner core) is actually composed of iron and nickel rather than rock. It is solid because the very high pressure drives up the melting temperature of these metals beyond the temperature at the core.
Crystallines can liquefy under pressure if it is sufficiently high. Generally the opposite happens where they become more dense and compressed as the pressure increases.
The critical temperature of a gas is the temperature at or above which no amount of pressure, however great, will cause the gas to liquefy.
evaporation and condensation or just condensation
Other words for melt are thaw, defrost, liquefy, and dissolve.
The rock in the center of the Earth doesn't liquefy because of the immense pressure from the layers of rock and metal above it. This pressure prevents the rock from melting despite the high temperatures in the Earth's core.
All forms of gas will liquefy at a sufficiently low temperature.
All forms of gas will liquefy at a sufficiently low temperature.
You can liquefy metal by heating it to a high enough temperature.
The center of Earth is not rock but metal. While that metal is well above its normal melting point it is kept solid by the enormous pressure found inside Earth.
The suffix in "liquefy" is "-fy," which means "to make" or "to cause to become."
The root word for "liquefy" is "lique-" which comes from the Latin word "liquere" meaning "to be liquid."
The centre of the Earth (the inner core) is actually composed of iron and nickel rather than rock. It is solid because the very high pressure drives up the melting temperature of these metals beyond the temperature at the core.
Yes
"Liquefy" means to make or become liquid, usually by heating or applying pressure to a solid substance.
Depends which gas
liquefy, dissolve, thaw, soften