kelvin
the hotness or coldness of a substance
Temperature is a measure of the motion of particles in a substance.
Saturation temperature is the temperature at which a substance transitions between its liquid and vapor phases at its boiling point. At this temperature, the substance is in equilibrium between its liquid and vapor states. When a substance reaches its saturation temperature, any additional heat added will cause it to boil and transition completely into vapor.
Temperature in the context of chemistry refers to the measure of the average kinetic energy of the particles in a substance. It indicates how hot or cold a substance is and is typically measured in degrees Celsius or Kelvin.
This is the definition of the melting point of an element or substance. The melting point is when a solid begins to turn into a liquid. A substance also has a boiling point and freezing point.
The average speed of particles in a substance is determined by the temperature of the substance. At higher temperatures, particles move faster, while at lower temperatures, particles move slower. This average speed is related to the kinetic energy of the particles.
The amount of heat required to raise the temperature of 1 g of a substance by 1°C.
By definition, ANY substance which has a temperature of less than 0 degrees is not greater than 5 degrees. Your question may need to be re-stated or clarified.
waterANS2:By definition, no substance fits that definition because a mineral is naturally occurring and solid at room temperature. What the question seems to be fishing for is elemental mercury. Elemental mercury does not occur naturally.
The substance vaporizes at its boiling point temperature.
If the ignition temperature is lower than the room temperature, the substance will not ignite or burn spontaneously at room temperature. Ignition temperature refers to the minimum temperature required for a substance to ignite and sustain combustion, so if it is lower than the room temperature, the substance will remain stable at that temperature.
True. Heat is transferred from a substance at high temperature to a substance at low temperature to reach thermal equilibrium.