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∙ 8y agoGamma radiation is generally considered the most dangerous to living things because it can penetrate deeply into tissue and cause cell damage throughout the body. Alpha and beta radiation are less penetrating and can be more easily shielded against.
Gamma rays are more dangerous than alpha rays because they are electromagnetic radiation that can penetrate deeply into tissues, causing damage at the atomic level whereas alpha rays are less penetrating and can be shielded by something as thin as a piece of paper.
Five types of radiation include alpha, beta, gamma, neutron, and electromagnetic radiation (such as x-rays and UV rays). Gamma and neutron radiation are generally considered the most dangerous due to their ability to penetrate deep into tissues and cause severe damage.
The three main types of radiation are alpha radiation, beta radiation, and gamma radiation. Alpha radiation consists of alpha particles, beta radiation consists of beta particles, and gamma radiation consists of gamma rays.
Gamma radiation is a type of electromagnetic radiation, whereas alpha and beta radiation are composed of particles. Gamma rays have the shortest wavelength and highest energy, whereas alpha and beta particles are larger and less penetrating. Gamma radiation does not carry an electric charge, while alpha and beta particles do.
Alpha and beta decay are often accompanied by the emission of gamma radiation. Gamma radiation is a high-energy form of electromagnetic radiation that helps to stabilize the nucleus after alpha or beta decay.
Gamma rays are more dangerous than alpha rays because they are electromagnetic radiation that can penetrate deeply into tissues, causing damage at the atomic level whereas alpha rays are less penetrating and can be shielded by something as thin as a piece of paper.
Ionizing radiation can be dangerous to living things, as it upsets the chemistry in living cells by breaking covalent bonds between atoms. Even if the radiation is not ionizing, such as in neutron flux, damage can be done there as well, due to activation processes that change the chemical identity of atoms.
Five types of radiation include alpha, beta, gamma, neutron, and electromagnetic radiation (such as x-rays and UV rays). Gamma and neutron radiation are generally considered the most dangerous due to their ability to penetrate deep into tissues and cause severe damage.
The three types of radiation given off by radioactive substances are alpha particles, beta particles, and gamma rays. Alpha particles are the least penetrating, beta particles are more penetrating than alpha particles, and gamma rays are the most penetrating and dangerous type of radiation.
The three main types of radiation are alpha radiation, beta radiation, and gamma radiation. Alpha radiation consists of alpha particles, beta radiation consists of beta particles, and gamma radiation consists of gamma rays.
Alpha and beta decay are often accompanied by the emission of gamma radiation. Gamma radiation is a high-energy form of electromagnetic radiation that helps to stabilize the nucleus after alpha or beta decay.
Gamma radiation can be safely used in medical procedures like radiotherapy when controlled doses are delivered. On the other hand, alpha particles are highly ionizing and can cause significant damage if inhaled or ingested, making them dangerous inside the body. It is essential to understand the differences in their properties and interactions with human tissue to ensure safe application.
Alpha (and beta) radiation is "particle radiation" Gamma is electro-magnetic radiation.
Radium emits alpha, beta, and gamma radiation. Alpha radiation is fully ionized helium nuclei. Beta radiation is high energy electrons. Gamma radiation is very high energy electromagnetic radiation. All of these can do significant damage to living things.
Externally, gamma radiation is dangerous because it can penetrate the body. Alpha is most dangerous if ingested.
Alpha, Beta, Gamma and cosmic are all examples of radiation.Types of radiation could be:Ionizing radiationElectromagnetic radiationInfra red radiation
Alpha particles have high ionizing power due to their large mass and double positive charge, which allows them to strip electrons from atoms through collisions. Beta particles have moderate ionizing power as they are fast-moving electrons or positrons that can penetrate tissue and ionize atoms. Gamma rays have low ionizing power due to their lack of charge and high penetrating ability, requiring thicker shielding to block them.