The temperature at which intermolecular forces push the molecules apart
apexx The temperature at which the kinetic energy breaks the intermolecular attractions.
Different solids melt at different temperatures.
But most solids melt between 0 to 100 Celsius
Only enough. Too much and it will turn to gas. This is right up there with "How long is a piece of string".
The temperature at which the kinetic energy breaks the intermolecular attractions
The temperature at which the kinetic energy breaks the intermolecular attractions
Nickel
It is a solid at room temperature. at room temp its solid. Think you've got gold jewelery that doesnt melt or anything when just sitting on the shelf, so its solid.
The metal manganese is a solid at room temperature, and does not melt until 1250 degrees C.
Heat must be added to a solid to cause it to melt. As the temperature increases, the solid gains enough energy to overcome the forces holding its particles together, causing them to move more freely and transition into a liquid state.
Gold as it is commonly found is a solid.
Such a solid will either: a) Increase in temperature b) Melt c) or both
Nickel
No, copper is solid at room temperature.
No, while it is possible to melt manganese it is a solid at room temperature
if you heat a solid substance it will melt at certain degree of temperature according to the substance.
No. At room temperature cesium is a solid, though it will melt on a hot day.
Yes, unless you melt them in a blast furnace, they are solid at room temperature.
The transformation from a solid to a liquid.
It is a solid at room temperature. at room temp its solid. Think you've got gold jewelery that doesnt melt or anything when just sitting on the shelf, so its solid.
The metal manganese is a solid at room temperature, and does not melt until 1250 degrees C.
Presumably, phoshophorus at room temperature, would be at ... room temperature. It would be solid and melt at 44.2°C (white phosphorus: 111.56°F) or 610°C (black phosphorus: 1130°F)
different solids melt at different temps. hope this was helpfull!!