because ice berg has more particles than hot coffee. i think.
The hot cup of coffee has more thermal energy than an iceberg. This is because thermal energy is directly related to temperature, and the cup of coffee is at a much higher temperature than the iceberg, meaning it contains more thermal energy.
The cup of hot coffee has more thermal energy than the bowl of warm soup.
Bathtub at 45 degrees
Thermal energy is heat. More heat is more thermal energy.
The container that has more thermal energy would be the one with a higher temperature. Thermal energy is directly proportional to temperature, so the container with a higher temperature would have more thermal energy.
Yes, the thermal energy of a substance depends on its mass because thermal energy is a form of internal energy related to the motion of particles within the substance. More particles in a larger amount of substance would have more kinetic energy, contributing to a higher thermal energy.
Temperature is what is used to measure thermal energy The more thermal energy a substance has, the more warmer it will be. So when the temperature is high, there is a lot of thermal energy Thermal energy is just energy. It refers to the energy of the molecules. Temperature is just a measurement
the large one of course. because the more the mass is, the more the energy is.
Thermal energy is not light. It is heat! Energy of heat and temperature of matter (more heat=more thermal energy=more movement of molecules) Temperature measures movement of molecules
An object with more particles has more thermal energy because there are more particles vibrating and moving, which contributes to the overall thermal energy of the object. The more particles there are, the more kinetic energy is present in the system, leading to a higher overall thermal energy.
An object has more thermal energy when it is hot, as higher temperatures correspond to greater thermal energy. Thermal energy is a measure of the internal energy of an object due to the motion of its particles. As the temperature of an object increases, so does its thermal energy.
The thermal energy.The thermal energy.The thermal energy.The thermal energy.