heat capacity
heat capacity
A material's specific heat and latent heat depend on the type of substance and its phase (solid, liquid, or gas). Specific heat is the amount of heat needed to raise the temperature of 1 kg of the substance by 1°C, while latent heat is the amount of heat absorbed or released during a phase change at a constant temperature.
Heat of fusion is an intensive property because it does not depend on the amount of substance present. It is the amount of heat required to change one gram of a substance from solid to liquid at its melting point.
Yes, the amount of heat in a substance is related to the motion of its molecules. Heat is a form of energy that corresponds to the motion of molecules within a substance. The more heat a substance has, the faster its molecules move.
No, the amount of heat radiation absorbed by a surface depends on factors such as color, texture, material, and orientation. Darker colors tend to absorb more heat compared to lighter colors, but other factors also play a significant role in the amount of heat absorbed.
The temperature change of an object depends on the amount of heat added or removed, the specific heat capacity of the material, and the mass of the object.
The amount of heat needed to raise an object's temperature depends on its mass, its specific heat capacity, and the temperature change desired. Objects with higher mass require more heat to raise their temperature, while those with higher specific heat capacities absorb more heat for the same temperature change.
It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.It will depend on the amount of computer memory you have. That is what limits what you can add to your workbook.
The heat energy you feel from a fireplace is primarily radiant heat. This heat is given off by the fire and warms objects and people in close proximity. The amount of heat felt will depend on the distance from the fireplace and the size of the fire.
anything that is "specific" is intensive. look at the units: J/(kg °K)that is, it doesnt depend on the quantity available.with "specific" properties, you multiple by the amount you want and you get the total amount of that property.
When matter absorbs heat, its temperature generally increases. The extent of the temperature increase will depend on factors such as the amount of heat absorbed, the specific heat capacity of the material, and its mass.
That's going to depend somewhat on the shape of the container and on how yourheat source is connected to the kerosene. But most of all, it's going to depend onthe amount of kerosene you're trying to heat up.That said, it's probably not a good idea to have any amount of kerosene anywherenear a 1000° F source of heat.