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A common substance with a high specific heat is water. There are a few substances that have a higher heat capacity than water, though, such as lithium and ammonia.
The substance in a solution that is present in the smaller amount is called the solute. The substance that has a higher amount is called the solvent.
Not sure what you mean by "how does it work," but Wikipedia has a very well written article on Specific Heat Capactiy. I'm sure it contains the information and explanantion you're looking for. See the web link.
The higher the substance's specific heat capacity, the more heat energy is needed to raise it's temperature.
The specific heat capacity is the energy density of a substance. Since jam has a higher specific heat capacity than the pie crust it is contained in, this is why the contents of a pie are always much hotter than the pie itself.
The higher of the temperature of a substance, the more thermal energy it has.
The average amount of energy of motion (also known as kinetic energy) in the particles of a substance (atoms and molecules) is measured by the temperature of that substance. More energy will produce a higher temperature.
The amount of heat released by the substance with higher temperature is equal to the amount of heat absorbed by the substance with lower temperature. The statement is often called "THE BLACK's PRINCIPLE".
A common substance with a high specific heat is water. There are a few substances that have a higher heat capacity than water, though, such as lithium and ammonia.
The substance in a solution that is present in the smaller amount is called the solute. The substance that has a higher amount is called the solvent.
Not sure what you mean by "how does it work," but Wikipedia has a very well written article on Specific Heat Capactiy. I'm sure it contains the information and explanantion you're looking for. See the web link.
The higher the substance's specific heat capacity, the more heat energy is needed to raise it's temperature.
It is greater when the substance is at a higher temperature. This is because the mean square speed of the molecules of a system is proportional to thermodynamic temperature.
The average amount of energy of motion (also known as kinetic energy) in the particles of a substance (atoms and molecules) is measured by the temperature of that substance. More energy will produce a higher temperature.
the higher the potential energy, the more is the stability....
Activation energy is really just the minimum amount of energy needed for a chemical reaction to occur. Without it, the energy will stay the same and the substance cannot undergo a chemical change. The thing to look at, I think, is the product of the reaction. For example, in a graph, two substances could have the same activation energy, but after the reaction the amount of energy in substance 1 could be extremely low and the amount of energy in substance 2 could be higher than the activation energy. In substance 1, evidence of an EXOTHERMIC reaction has occurred because the amount of energy in the original substance was lost indicating that it has released energy. Whereas in substance 2, when the amount of energy was higher than the activation energy, it is evident that an ENDOTHERMIC reaction has occurred because the amount of energy after the reaction is higher than it was before the reaction. This shows that substance 2 absorbedenergy making it endothermic. hope this helps!
Higher temperature means greater energy content compared to a lower temperature. The energy required to change the temperature is proportional to the mass of the system, the specific heat capacity, and the temperature change.