That can't happen, unless the object is losing thermal energy out the back door
at the same rate as it's absorbing thermal energy in front where you're watching.
There's no getting around the rules:
More thermal energy inside = higher temperature.
Less thermal energy inside = lower temperature.
Excuse me, I just thought of the exception ... that's when the substance is changing
state, between solid / liquid / gas.
The reason is that, for example, it takes more thermal energy for the molecules
of water to act like a liquid than it takes for them to act like a solid, even though
the water and the ice are both at the same temperature.
Holy moley ! There's another one. If you pump thermal energy into a sample of
gas AND let the gas expand at the same time, you can adjust things so that
the temperature remains constant.
This is because of latent heat. Thermal energy is stored in object in form of latent heat.
The higher of the temperature of a substance, the more thermal energy it has.
When a sample of a substance absorbs thermal energy, its temperature rises.
The thermal energy of a substance is measured by its temperature.
Temperature is a measure of the concentration of thermal energy.
For example, when ice is melting, the absorbed thermal energy is used to change the phase of the substance - a type of potential energy.
This is because of latent heat. Thermal energy is stored in object in form of latent heat.
The higher of the temperature of a substance, the more thermal energy it has.
When a sample of a substance absorbs thermal energy, its temperature rises.
The thermal energy of a substance is measured by its temperature.
Temperature is a measure of the concentration of thermal energy.
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
The amount of thermal energy a substance has is proportional to its temperature
Temperature is what is used to measure thermal energy The more thermal energy a substance has, the more warmer it will be. So when the temperature is high, there is a lot of thermal energy Thermal energy is just energy. It refers to the energy of the molecules. Temperature is just a measurement
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
It's particles could be the kind that dosen't scatter easily thus, making it harder to heat.