Alpha, Beta, Gamma and cosmic are all examples of radiation.Types of radiation could be:Ionizing radiationElectromagnetic radiationInfra red radiation
The six types of electromagnetic radiation in order of increasing wavelength are: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, and X-rays.
Radioactivity occurs with the breakdown r decay of certain unstable atomic nuclei. This nuclear radiation is dangerous because it has a lot of energy-on the order of millions of electron volts per emitted particle. Because chemical bonds take about 3-4 electron volts to break, this energy is enough to break apart ordinarily stable molecules into smaller, highly reactive fragments-most of which are ions. Thus, nuclear radiation gets the name ionizing radiation.
Spontaneous emission of ionizing radiation as a consequence of a nuclear reaction, or directly from the breakdown of an unstable nucleus; The radiation so emitted; including gamma rays, alpha particles, neutrons, electrons, positrons, etc
Ionizing radiation is generally divided into electromagnetic radiation and particulate radiation. Charged particles are affected, and this will include protons, beta particles and alpha particles. Neutrons, another particulate form of ionizing radiation, won't be affected. Electromagnetic ionizing radiation, cosmic rays and gamma rays, are not effected.
Alpha, Beta, Gamma and cosmic are all examples of radiation.Types of radiation could be:Ionizing radiationElectromagnetic radiationInfra red radiation
Radioactivity occurs with the breakdown r decay of certain unstable atomic nuclei. This nuclear radiation is dangerous because it has a lot of energy-on the order of millions of electron volts per emitted particle. Because chemical bonds take about 3-4 electron volts to break, this energy is enough to break apart ordinarily stable molecules into smaller, highly reactive fragments-most of which are ions. Thus, nuclear radiation gets the name ionizing radiation.
The six types of electromagnetic radiation in order of increasing wavelength are: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, and X-rays.
Radioactivity occurs with the breakdown r decay of certain unstable atomic nuclei. This nuclear radiation is dangerous because it has a lot of energy-on the order of millions of electron volts per emitted particle. Because chemical bonds take about 3-4 electron volts to break, this energy is enough to break apart ordinarily stable molecules into smaller, highly reactive fragments-most of which are ions. Thus, nuclear radiation gets the name ionizing radiation.
In order of increasing frequency: (i) radio waves. (ii) microwaves. (iii) infrared. (iv) visible light. (v) ultraviolet. hope this helps =)
Radiation is the emission (sending out) of energy from any source. The light that comes from the sun is a source of radiation, as is the heat that is constantly coming off our bodies. When talking about radiation, however, most people think of specific kinds of radiation such as that produced by radioactive materials or nuclear reactions. Most forms of radiation have not been linked to cancer. Only high frequency radiation (ionizing radiation and ultraviolet radiation) has been proven to cause genetic damage, which can lead to cancer. One type of molecule that is sensitive to ionizing radiation is DNA, the part of the cell that contains the genes (blueprints) for each person's characteristics. Ionizing radiation can lead to a mutation (change) in a cell's DNA, which could contribute to cancer, or to the death of the cell. All cells in the body can be damaged by ionizing radiation. The amount of damage is related to the dose of radiation received by the cell. While the process of cellular change from radiation takes only a fraction of a second, other changes such as the beginning of cancer may take years to develop.
Short Answer:One usually uses the term "ionizing radiation" to describe electromagnetic or particle radiation, that ionizes atoms or molecule.In order to ionize an atom or molecule or other material particle, there has to be energy supplied that is sufficient to remove or "eject" an electron from the atom, molecule or particle. The amount of energy necessary to eject an electron is usually about a fraction of an electron volt of more. It depends on the material being ionized.One does not usually use the term "energy wave" but there is nothing technically wrong with that term. That term would, for instance, distinguish between electromagnetic (wave) radiation and particle radiation.Additional:Ionizing radiation is important in medical technologies for treating cancer and other diseases. Both electromagnetic (photon) and particle therapies involve ionizing radiation. See related link.Ionizing radiation is, more generally, an example of how radioactivity can harm living tissue. It is also important in the context of radioactivity because fast moving particles, such as alpha and beta rays, lose a great deal of energy when they ionize material, so the "stopping power" of a substance acting as a radiation shield is largely determined by how much ionization takes place in the material as energetic charged particles pass through.Ionizing radiation exists in nature in many forms. The Aurora Borealis is a consequence of ionizing radiation from the sun.
Spontaneous emission of ionizing radiation as a consequence of a nuclear reaction, or directly from the breakdown of an unstable nucleus; The radiation so emitted; including gamma rays, alpha particles, neutrons, electrons, positrons, etc
Ionizing radiation is generally divided into electromagnetic radiation and particulate radiation. Charged particles are affected, and this will include protons, beta particles and alpha particles. Neutrons, another particulate form of ionizing radiation, won't be affected. Electromagnetic ionizing radiation, cosmic rays and gamma rays, are not effected.
in increasing order
Species evolve during adaptive radiation in order to exploit new ecological niches and resources that become available in their environment. This process allows them to diversify and adapt to different conditions, increasing their chances of survival and reproductive success.
what is answer of 356 times 0.1 by arrange in increasing order?