1. In the process, the light energy converts to heat energy. 2. Thus, as temperature increases, heat energy is absorbed shifting the equilibrium to the left. 3. PICTURES go on show this week illustrating how much heat energy is being wasted in Belfast. 4. Accordingly, watts per square meter correspond to a rate at which heat energy is lost. 5. But how do we figure how many units of heat energy are in a candy bar or can of soup? 6. Lower-octane fuel burns more rapidly and actually produces more heat energy than premium fuel. 7. Through these convection motions, heat energy from the core is converted efficiently into mechanical energy. 8. Heat energy released in the process can be converted to electricity, with the eventual goal of harnessing more energy than needed to run the reactor. 9. The charged molecular particles collide at high speeds and many fuse, releasing heat energy. 10. The reaction yields slightly larger atoms and atomic particles called neutrons that carry away heat energy released in the process so energy that can be used to make electricity. |