yes
One substance that has a high melting point is diamond.
Yes, it has a melting point of 1683 Kelvin.
No, it is very low. Argon has a melting point of −189.3°C
Naphthalene has a relatively low melting point of around 80 degrees Celsius.
It has a melting point of 113 degrees celieus
No, not all rocks can be melted. Rocks with high melting points, such as granite, can require very high temperatures to melt. Additionally, some rocks can react chemically or decompose before reaching their melting point.
The high pressure in the lower mantle keeps rocks solid even if they exceed their melting point, as pressure can suppress melting. Additionally, the presence of minerals with high melting points, such as silicates, contributes to the rocks remaining solid below their melting point. The slow rate of heat transfer in the solid rock also plays a role in preventing it from reaching its melting point.
One substance that has a high melting point is diamond.
it has a low melting point
All metals have different melting points but they are all high
Chromium has a high melting point of 1,857°C (3,375°F) making it a refractory metal.
That depends on the solid: ice has a very low melting point, lard and butter have low melting points, chocolate has a relatively low melting point, wax has an intermediate melting point, lead has a high melting point, iron has a very high melting point, tungsten has an extremely high melting point.
Yes, it has a melting point of 1683 Kelvin.
As the water content of rocks increases, the melting point typically decreases. This is because the presence of water lowers the melting point of minerals in the rocks by acting as a flux that promotes melting. The addition of water creates a eutectic point where the rock will begin to melt at a lower temperature.
No, this is a low melting point.
A rocks melting point at surface pressures would depend on its mineral composition. Every mineral has a different melting point, and rocks are composed of a variety of minerals.
A rocks melting point would be determined by the highest temperature at which its constituent minerals would melt.