Yes, if the heat goes into a phase change.
For example . . .
Thermal energy is simply just another term for temperature. Adding thermal energy to any substance will always create a rise in temperature. The only way it would be possible to add thermal energy to a substance without seeing any net increase in temperature would be if the substance lost an equal amount of thermal energy at the same time.
Answer:
At the melting point and boiling point any input of thermal energy goes to the change of state rather than the rise in temperature. As a consequence boilling water stays at 100oC until it is all evaporated and melting ice stays at 0oC until the entire mass is melted
Yes, when the material changes its state - for example, when melting ice.
When a substance is melting or boiling, its temperature does not change even though heat is provided to it. Change of state occurs at a constant temperature but even though it requires heat.
Yes. For example, when water is boiling, adding heat to it won't change its
temperature.
Yes. For example, if you have water vapor that is at the boiling point of water, removing heat will cause it to condense without changing temperature.
During a change of state (e.g. melting, boiling)
Adding heat to ice at 0oC does not heat the ice or the water produced the ice's melting. The heat energy goes to the change of state process.
During a phase change from a solid to liquid, or liquid to gas, yes. However, once the phase change is complete, the temperature will rise.
It is possible to add heat to a substance without changing its temperature. That happens during melting and boiling. However, I cannot think of a case in which the temperature of a substance increases without heat being added to it, either by radiation, conduction or convection.
The temperature remain constant during the phase changing.
Thermal energy of a substance is determined by the movement of the molecules and the potential energy of the arrangement of molecules. Heat transfer will stop when thermal equilibrium is reached. It depends upon the substance how long that takes.
Particle motion increases as energy (like heat) is added. The motion slows as energy leaves. Temperature is a measure of this change in particle motion.
# Its sensible temperature can increase, # It can undergo a phase change (solid->liquid, liquid->gas, gas->plasma, or solid->solid with atomic arrangements), or # A chemical / physical reaction can be triggered (diffusion in semiconductors, curie temperature in magnets, have a pretty sharp temperature thresholds).
It is possible to add heat to a substance without changing its temperature. That happens during melting and boiling. However, I cannot think of a case in which the temperature of a substance increases without heat being added to it, either by radiation, conduction or convection.
because of the substance causing it to do the solution
That's the heat of fusion.
HEAT
heat
When any substance is heated, the temperature rises.
salt
The temperature remain constant during the phase changing.
The specific heat of substance A is greater than that for substance B. If both sample sizes are the same and they both start at the same temperature and equal amounts of heat are added to both these samples, substance A will have a lower temperature than substance B.
To increase.
mealting point
Thermal energy of a substance is determined by the movement of the molecules and the potential energy of the arrangement of molecules. Heat transfer will stop when thermal equilibrium is reached. It depends upon the substance how long that takes.