gama ışıması

listen to the pronunciation of gama ışıması
Türkçe - İngilizce
gamma radiation
electromagnetic radiation consisting of gamma rays
Electromagnetic ionizing radiation which easily penetrates test biological tissue
Radiation composed of photons emitted during the process of nuclear transition or annihilation of the particles High-energy electromagnetic radiation with a very short wavelength and no mass, which is emitted from many types of nuclei Gamma radiation is just like ordinary light and X-rays, but has a much higher energy Gamma radiation is very penetrating and can only be effectively absorbed by dense materials such as iron, concrete or lead The thickness of shielding required can be anything between a few centimetres and a few metres, depending on the energy and intensity of the radiation
A form of electromagnetic, high energy radiation emitted from a nucleus Gamma radiation is essentially the same as X-rays and requires heavy shielding
Electromagnetic radiation similar to light or x-rays, but much more energetic Requires lead or concrete shielding
Gamma radiation is a type of high energy electromagnetic radiation which is emitted during the disintegration of certain radioactive isotopes such as 125I and 57Co, which are used as tracers in immunoassays Gamma emitting samples are measured in solid crystal scintillation counters These solid crystals, are usually thallium activated sodium iodide and are different sizes to accommodate lower and higher energy radioisotopes
A type of ionizing, electromagnetic radiation that readily penetrates the body tissues of organisms Has a wavelength less than 0 03 nanometers
High energy electomagnetic radiation that is emitted from an atom's nucleus has no mass or electrical charge has high penetrating power, and can pass though the human body
Gamma radiation is short wavelength electromagnetic radiation, of the same physical nature as light, X-rays, radio waves, etc However, gamma radiation is highly penetrating (more so than X-rays) and depending on its energy, may require a considerable thickness of lead or concrete to absorb it Since gamma radiation causes ionisation it constitutes a biological hazard
Waves of pure energy similar to x-rays, originating from the center of atoms
Highly penetrating, short wavelength radiation emitted from the nuclei of atoms It is stopped by an adequate thickness of lead, concrete or other materials
electromagnetic radiation emitted during radioactive decay and having an extremely short wavelength
Gamma rays are high-energy, ionizing radiation that travel at the speed of light and have great penetrating power They can cause skin burns, severely injure internal organs and have long-term, physiological effects (FEMA-SS)
Similar to x-ray (photon radiation) but much more powerful It is not a laser Gamma radiation is invisible, cannot be felt and is able to penetrate deep through tissues The radioactive source is Cobalt-60
High-energy, short wavelength electromagnetic radiation emitted from the nucleus of an atom Gamma rays are very penetrating and are shielded by dense materials such as lead Gamma rays are similar to X rays
gama ışıması