Electromagnetic radiation
solar fussion
A fusion of hydrogen atoms forms helium and formes a large amount of mass into energy.
Fusion at the core of the sun is the process that gives the sun its energy. Fusion is the same process found in the explosion of a hydrogen bomb.
The Sun - in common with all stars - gives off electromagnetic radiation and charged particles.The electromagnetic radiation is called, depending on the frequency and wavelength of the radiation, radio, heat, light, X-rays or gamma rays.The charged particles are generally free electrons (sometimes called "beta particles", or helium ions ("alpha particles" or free protons. These particles make up the "solar wind" and when especially intense, are sometimes referred to as a "solar storm".
Most of Jupiter's internal heat is due to its contraction, when its contracts it changes potential energy into kinetic energy and through this energy change a large amount of friction heat is created.
Electromagnetic radiation is made of energy. Very small amount of energy for radio waves or large amounts of energy for gamma rays. Visible light is electromagnetic radiation.
Radiation is a consequence of nuclear energy. In fact, without the radiation of a large neutron flux, nuclear energy would not exist.
True! Im pretty sure!
The coaster have a large amount of potential energy when it gain height, kinetic energy when it gain speed instead.
No, coal puts large amounts of uranium oxides into the atmosphere through its stacks.
No, coal puts large amounts of uranium oxides into the atmosphere through its stacks.
If water absorbs a large amount of energy it boils.
ATP contains a large amount of energy because it has high-energy phosphate bonds.
amplitude :)
That depends very much on what kind of radiant energy and how much of it you get. A large dose of radiant gamma radiation is very unhealthy. A moderate amount of sunshine (which is radiant energy) is good for you and promotes the production of vitamin D. Too much UV radiation will give you sunburn and can cause skin cancer.
amplitude
It depends on what kind of radiation... Alpha radiation can be stopped with a sheet of paper or a few inches of air. Beta radiation can be stopped with a thin sheet of metal. Neutron radiation, depending on energy, requires large thicknesses of lead or concrete. Gamma radiation, depending on energy, also requires large thicknesses of lead or concrete. Some of the higher energy gammas, such as cosmic rays, can be quite difficult to stop at all.