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).
Heat is transferred by the atoms movement therefore higher pressures mean more atomic collisions hence quicker transfer
Pressure = Force/Area
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.
thrust and pressure are dirrectly proportional 2 each other frm d formula pressure =perpendicular force /area
the difference between this is that surface area
Yes, there is. Higher pressure increases the boiling point and lower pressure decreases it. That is why a pressure cooker works and why water boils at lower temperatures in high altitudes.
I believe the relationship has to do with heat expanding molecules and maybe the opposite. Hence the pressure and temperature relationship.
the relationship between pressure and volume a direct or inverse?
There is no relationship between heat of fusion and heat of vapourisation
The relationship between pressure and volume (apex)
Atoms are constantly moving and bumping into each other which produces heat. If you increase the pressure you increase the chance that the atoms will run into each other thus producing more heat.
Pressure = Force/Area
In the relationship between volume and pressure when volume increases pressure decreases and when volume decreases pressure increases.
Pressure = Force/Area.
Thermodynamics is the study of the relationship between thermal energy and heat and work.
The greater the depth, the greater the pressure.
A paragraph has nothing to do with heat and temperature.
Nuclear fusion produces heat, and heat creates the pressure which keeps the star from collapsing under its own gravity. The relationship between heat and pressure in a gas is described by the Ideal Gas Laws. It also applies to plasma (which can be described as a super heated gas).