Such energy is called nuclear energy. There are basically two different variations on this principle. One, light atoms can be combined into heavier atoms (up to a certain point - somewhere around iron). This is known as fusion. The other is that heavy atoms (heavier than iron) can split into lighter atoms.
Light has heat and light energy. Example is bulb.
Iron naturally exists in solid state and heat is required for its liquifaction so liquid iron has high thermal energy.
electrical energy
kinetic energy
No, light is a form of energy. It can be thought of as wave energy or as tiny packets (photons) of energy. Substances like sugar, iron and salt are made up of molecules or atoms.
electrical, chemical, heat, and light energy
If iron is used, there will be no light emitted from the light bulb as iron is opaque.
The energy comes from the heat to melt the iron
1. Electric flat iron -electrical energy===> mechanical energy===>heat energy
electrical energy
Because iron has no more excess binding energy left to release. Iron fusion consumes energy, it does not generate it.
No energy is gained when fusing iron into heavier elements. Heavier elements have a higher potential energy (nuclear energy) than iron.
Light energy is radiant energy.
Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.
Is that really your question? Do you mean in the experiment when iron and sulfur are mixed and heated why does it glow red? During the experiment iron and sulfur begin to react at higher temperatures. As they react there is a release of energy, some of which is heat and some is in the red light region. During the reaction iron sulfide is produced. More simplistically, heating many things caused them to glow red. Heating iron can cause the iron alone to start giving off a red glow because while absorbing the heat the electrons in the atoms move to a higher energy level. Some of that absorbeb energy is released as the electrons move back to lower energy levels releasing some energy as red light waves.
Such energy is called nuclear energy. There are basically two different variations on this principle. One, light atoms can be combined into heavier atoms (up to a certain point - somewhere around iron). This is known as fusion. The other is that heavy atoms (heavier than iron) can split into lighter atoms.