substances in gas form
the mantle
The two main factors that determine the amount of thermal energy in a system are the temperature of the system (measured in degrees Kelvin) and the mass of the system. The higher the temperature and the greater the mass, the more thermal energy the system will contain.
Icebergs contain thermal energy because they are formed from frozen water molecules that have a certain amount of heat energy absorbed from their surroundings. This heat energy is released when the ice melts, contributing to the overall available thermal energy in the iceberg.
Yes, the thermal energy in a cup of tea and a pot of tea at the same temperature would be the same, assuming they contain the same amount of liquid. Thermal energy depends on temperature and quantity of substance.
Cold objects still contain thermal energy because temperature is not the only factor that determines the amount of thermal energy an object has. Even at cold temperatures, the particles within an object still possess kinetic energy that contributes to the overall thermal energy of the object.
A hot object contains thermal energy, which is the total energy of its particles. Heat is the transfer of thermal energy between objects at different temperatures.
Yes, thermal energy does depend on the amount of substance. The more mass a substance has, the more thermal energy it can store. This is because thermal energy is related to the internal energy of a substance, which increases with the amount of substance present.
The two stars that contain the greatest amount of hydrogen are dwarf stars and main-sequence stars. These stars are primarily composed of hydrogen, which fuels their fusion processes and provides them with energy.
No, thermal energy cannot be cold. Thermal energy is a form of energy that is related to the temperature of an object or substance. Cold temperatures indicate a lower amount of thermal energy, while hot temperatures indicate a higher amount of thermal energy.
On Earth, the greatest source of thermal energy would be at the earth's core.
The temperature of a substance with a large amount of thermal energy will be higher compared to a substance with lower thermal energy. Thermal energy is directly related to temperature, so as the amount of thermal energy increases, the average kinetic energy of the particles in the substance increases, leading to a higher temperature.
The amount of thermal energy depends on the temperature of the object and its mass.