Both microwave radiation and nuclear electromagnetic radiation are members of the same species, but they're as different as babies are from elephants, to wit, microwaves are much, much less powerful than nuclear electromagnetic radiation. Microwave radiation, for instance, makes atoms shift their position (and magnetic fields) very, very quickly. Now the definition of heat is "movement," so the faster anything moves, the "hotter" we say it is. Ergo, something placed in a microwave-radiation-field becomes noticeably "hotter." But comparing microwave and nuclear electromagnetic radiation is like comparing a face-slap to a 20-ton BOMB. Nuclear radiation comes from atomic nuclei, so "nuclear radiation" can strike, penetrate, damage, and even destroy atoms in their path. Big difference, capiche? Huge.
We left out the part about nuclear particulate radiation. There is no comparison there. Additionally, nuclear electromagnetic radiation is ionizing radiation while microwave radiation is not.
Nuclear radiation comes from the nucleus of an atom and includes alpha, beta, and gamma rays. Electromagnetic radiation comes from the movement of electrically charged particles and includes visible light, radio waves, and X-rays.
Yes, radiation is a broader term that refers to the emission and propagation of energy through space or a material medium. Nuclear radiation specifically refers to the particles and electromagnetic radiation emitted from the nucleus of an atom, typically during a nuclear reaction such as radioactive decay or nuclear fission.
The main difference is that radiation emitted by uranium is due to the natural radioactive decay of its nucleus, while X-rays are electromagnetic radiation produced by accelerating charged particles. This led to the conclusion that X-rays are a form of light, whereas uranium radiation is a result of nuclear processes.
Heat radiation is infrared radiation, which is a relatively low frequency radiation, slightly lower than that of visible light. Nuclear radiation includes a variety of types, including X rays and gamma rays, which are very high frequency radiation, and which are consequently much more dangerous, and can cause radiation sickness. There are also other types of nuclear radiation such as alpha rays, beta rays, and neutrons, all of which are in the form of subatomic particles rather than electromagnetic radiation.
Nuclear weapons emit various types of radiation, including gamma radiation, neutron radiation, and thermal radiation. These forms of radiation can have harmful effects on living organisms and the environment.
The energy from a microwave oven is taken from an electric outlet. The electricity that reaches your home may come from different sources, including nuclear power plants but also other types of power plants; the microwave oven won't notice the difference.
Nuclear radiation comes from the nucleus of an atom and includes alpha, beta, and gamma rays. Electromagnetic radiation comes from the movement of electrically charged particles and includes visible light, radio waves, and X-rays.
Yes, radiation is a broader term that refers to the emission and propagation of energy through space or a material medium. Nuclear radiation specifically refers to the particles and electromagnetic radiation emitted from the nucleus of an atom, typically during a nuclear reaction such as radioactive decay or nuclear fission.
fallout emits nuclear radiation, but lots of other things do too.fallout is particulates from dust size to baseball size, nuclear radiation is a mix of electromagnetic radiation and high speed subatomic particles.
The main difference is that radiation emitted by uranium is due to the natural radioactive decay of its nucleus, while X-rays are electromagnetic radiation produced by accelerating charged particles. This led to the conclusion that X-rays are a form of light, whereas uranium radiation is a result of nuclear processes.
Heat radiation is infrared radiation, which is a relatively low frequency radiation, slightly lower than that of visible light. Nuclear radiation includes a variety of types, including X rays and gamma rays, which are very high frequency radiation, and which are consequently much more dangerous, and can cause radiation sickness. There are also other types of nuclear radiation such as alpha rays, beta rays, and neutrons, all of which are in the form of subatomic particles rather than electromagnetic radiation.
The U.S does not face much of a threat from the radiation in Japan but it may quite be possible for the minimal amounts of radiation to get here, possibly the amount a microwave emits when activated.
There are no immediate signed of nuclear radiation.
nuclear what? nuclear radiation affects virtually all living things. it is poisonous to virtually everything as it kills living cells and just like in a microwave oven which uses the same technology it will cook you from the inside out.
Background radiation come from black body radiation which is mostly infrared and microwave. Background radiation is not harmful at all. Fear from background radiation come from confusion of the word radiation where we mostly concern nuclear radiation, but light is also a form of radiation and we live within the bright day light on a normal basis.
Nuclear weapons emit various types of radiation, including gamma radiation, neutron radiation, and thermal radiation. These forms of radiation can have harmful effects on living organisms and the environment.
Nuclear radiation is not affected at all, but radiation by Electromagnetic Radiation is. This is a straight Physics topic, not Nuclear Energy.