I would say non-relativistic total energy. The energy related to motion is kinetic energy; The stored energy in the particles is potential energy.
The stored thermal energy in a certain body (or the stored heat if you like) is the product of its specific thermal capacity and the temperature difference between its temperature and ambient temperature (assuming the observer is at ambient). The specific thermal capacity is the specific heat per unit mass of its material times the mass, if there are different components of different materials you just add them arithmetically.
The above works when there is no change of state, ie always a solid or a liquid or a gas. If there is a change of state, like water turning into steam, then there is also latent heat to include.
Heat is due to particle motion as your question indicates, but we don't measure that directly.
Average KE is proportional to the temperature of the particles measured in Kelvin.Energy is measured in Joules and temperature is measured in Kelvin or Celsius. Do not think that they are the same thing.KE = 1/2mv2 for macroscopic objects but the equation for working out the KE of particles is quite complicated.
The De Broglie Wavelength is being measured in the electromagnetic fields. The De Broglie Wavelength theory is related to Bohr's Quantum Theory and is about the energy of atom particles.
is motions of gas particles are related to the pressure exerted by the gas
Matter is made up of particles (atoms and molecules); temperature is closely related to the average kinetic energy per particle. More precisely, the average kinetic energy per particle per degree of freedom.
Temperature is a measure of the average kinetic energy of the atoms and molecules (i.e., the particles) of the body with that temperature. By comparison heat is a measure of the total kinetic energy of the particles of the body containing that heat.
I would say non-relativistic total energy. The energy related to motion is kinetic energy; The stored energy in the particles is potential energy.
I would say non-relativistic total energy. The energy related to motion is kinetic energy; The stored energy in the particles is potential energy.
i dont no
if the temperature of the substance is raised then the kinetic energy of the gaseous particles will also increase....
If there is an increase in the temperature of a substance, that indicates the increase in vibration and speed of the particles. If there is a decrease in the temperature of a substance, that indicates the decrease in vibration and speed of the particles.
Temperature is a measure of the kinetic energy of the particles of a substance.
When we heat a substance, the energy absorbed is converted into kinetic energy of the particles in it. The faster the particles in it vibrate, move, collide, etc. the higher the temperatureof a substance.So the expected answer is Temperature
No. The average kinetic energy of the individual particles in an object is basically related to the object's temperature.
Average KE is proportional to the temperature of the particles measured in Kelvin.Energy is measured in Joules and temperature is measured in Kelvin or Celsius. Do not think that they are the same thing.KE = 1/2mv2 for macroscopic objects but the equation for working out the KE of particles is quite complicated.
Neutronium. The substance of a Neutron star.
Temperature is the average kinetic energy of a substance, As a substance gains kinetic energy, its particles begin to move faster. While solids vibrate in place, the particles in a liquid slip and slide past each other, and in gasses, the particles move even faster and further apart. As the kinetic energy of a substance increases, the particles collide with one another with greater force and frequency. Every time particles collide, there is friction between them. Just as your hands get warm when you rub them together, the particles begin to warm as they collide. This is why there is a direct relationship between the temperature and the kinetic energy of a substance.
The De Broglie Wavelength is being measured in the electromagnetic fields. The De Broglie Wavelength theory is related to Bohr's Quantum Theory and is about the energy of atom particles.