I think that the relationship between Heat and matter is that they both can be seen, both measured, both exists. Those are just some similarities.
the difference between this is that surface area
if q= mc delta T then we know that as the mass increases the heat transferred increases
When water is heated, that energy can be given to the hydrogen bonds, keeping the water cool. So, water has a high specific heat because it takes a lot of energy to heat it up. Surface tension is a result of hydrogen bonds holding the surface molecules together tightly. So the relationship between water's high specific heat and surface tension is that hydrogen bonds are responsible for both of them. If hydrogen didn't have these bonds, water's specific heat would be normal, and its surface tension negligable.
The process of changing one form of energy into another form of energy is called work (symbol: W). For example, when an electric motor changes electric energy into kinetic energy, it is doing work.Heat (symbol: Q) describes energy in transit (i.e. the flow of energy) from a warmer body to a cooler body.So, for example, when an electric kettle is switched on, electrical energy is converted into the internal energy of the water (and of the kettle itself) -in other words, work(W) is being done to the kettle. As the internal energy* of the water and the kettle increases, its temperature rises above the abient (surrounding) temperature, so energy is then lost from the kettle to its surroundings by heat(Q) transfer. So, the change in the water/kettle's internal energy is the difference between the work done on the kettle, and the heat transfer away from the kettle. To summarise:change in internal energy = W - QSo, we can say that a change in internal energy is the difference between work and heat. And this is the relationship between work and heat.(*'Internal energy' is the sum total of the various energies associated with the vibration of the molecules of any body. All bodies have internal energy. Lower internal energy is associated with lower temperatures, and higher internal energy is associated with higher temperatures.)
Heat is the movement of energy in response to a difference in temperature. Heat flows in a direction from high to low temperature, and has the effect of tending to equalize the temperatures of the objects in thermal contact. Thus the flow of heat may raise the temperature of one object while lowering the temperature of the other. A more appropriate question would be, what is the relationship between pressure and temperature? This in itself is still an ill-posed question (it depends on what is held fixed, e.g., the volume, while the temperature is changed), but in a general sense the pressure will increase with temperature (although there are notable exceptions, such as water near freezing).
There is no relationship between heat of fusion and heat of vapourisation
the goat ate a potato
A change in the state of matter occurs when heat energy is added or removed.
If you add heat to matter, it can either get it hotter, or it can change the state of matter (for example, from solid to liquid).
None of the above. Heat is energy, not matter.
Thermodynamics is the study of the relationship between thermal energy and heat and work.
I believe "heat"To change from one state of matter to another state of matter heat is added or taken away.I think that makes sense!
Heat or cool it.
This is a gas.
Heat causes matter to become warmer, usually to expand,and occasionally to change its physical state.
A paragraph has nothing to do with heat and temperature.
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