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Is a blue light radioactive?
If you mean radioactive as in atomic or nuclear, not necessarily. Light is radiation, regardless of its color, but not usually radioactive in and of itself. Atomic or nuclear radiation has no color.However, by the strictest definition, anything that emits radiation of any kind, such as a blue light bulb emitting blue light (which is radiation), could be considered radioactive.
What is the energy and matter released by radon gas that causes health concerns called?
The answer sought here might be ionizing radiation. Ionizing radiation comes in a couple of "flavors" as we know it. One is particulate radiation, and it involves a particle of some kind. The other is electromagnetic radiation, and it involves a "ray" or the like. Radon undergoes what is called radioactive or nuclear decay. 222Rn, the isotope of concern with radon, emits an alpha particle to decay. The alpha particle is two protons and two neutrons - a helium nucleus. This particle has very poor penetrating power. A sheet of paper will stop it. But radon is an inert gas, and if a person breathes in radon, even in small quantities, the alpha decay of radon in the lungs exposes soft tissue to terrible biological damage from the alpha particles. What's worse, the radon becomes polonium - another radioactive substance. Radon that is inhaled and undergoes radioactive (alpha) decay in the lungs has 7 more radioactive decays to go before becoming a stable isotope of lead. And each decay event further exposes local (and the same) tissue to heavy biological damage. Radon causes more lung cancer than most individuals know about.
What kind of decay occurs in the mantle and releases energy that drives convection currents?
Radioactive decay, specifically the decay of elements like uranium, thorium, and potassium, occurs in the mantle. This decay releases heat energy, which drives convection currents in the mantle. This movement of material helps transfer heat from the Earth's interior to the surface.
What is the kind of decay that results in the formation of a different element called?
Alpha decay is a kind of radioactive decay in which an alpha particle is emitted from an atom. An alpha particle consists of two protons and two neutrons. Therefore, when an atom of an element undergoes alpha decay, it loses two protons, which changes the atom from one element to another. This is because each different element is identified by the number of protons in its atomic nuclei.
What kind of radioactive decay does carbon 14 go under?
Carbon-14 undergoes beta decay, where a neutron in the carbon-14 nucleus is transformed into a proton, resulting in the emission of a beta particle (an electron) and an antineutrino. This process transforms carbon-14 into nitrogen-14.
Definition of gamma rays?
Penetrating electromagnetic radiation of a kind arising from the radioactive decay of atomic nuclei.
What kind of radiation does sodium - 24 emit?
Sodium-24 emits beta radiation. This consists of high-speed electrons that are released during the radioactive decay process of sodium-24. Beta radiation is capable of penetrating skin and causing damage to living tissue.
What kind of danger can ununhexium cause?
Ununhexium, also known as element 116, is a synthetic element that is highly radioactive and unstable. It can decay into other radioactive elements, releasing harmful radiation that can pose a danger to human health. Direct exposure to ununhexium or its decay products can cause radiation poisoning and increase the risk of cancer.
What kind of decay can change one element to another kind of element?
That would be radioactive decay.
What kind of process is radioactive decay?
It is a nuclear process.
What kind of dating is done by using radioactive decay?
Carbon dating
Are radioactive isotopes good for the diet?
No, radioactive isotopes are not good for any diet. Radioactive isotopes are radioactive, which means they have unstable atomic nuclei. These unstable nuclei will, sooner or later, decay, and they will emit some kind(s) of radiation in the process. Radiation can damage biological material, and that's not good for any living thing. We generally are subject to a bit of natural radiation all the time. It's the natural background radiation. But we work to avoid any "extra" exposure because it can be hazardous to our health. We do use radioactive isotopes in nuclear medicine and associated procedures. But in these cases, the benefit is worth any small risk. Exposure to radiation in medicine is carefully calculated and monitored by the professionals who work with it.
Radioactivity is caused due to?
Radioactivity is caused by the decay of unstable atomic nuclei, emitting particles and energy in the form of radiation. This process occurs in elements with an imbalance of protons and neutrons in their nuclei. The emitted radiation can have various types, such as alpha particles, beta particles, and gamma rays.
What actually decays in radioactive decay?
The nucleus of the atom decays, and in the process, the nucleus transforms into another element, or into an isotope or isomer of the same element. In radioactive decay, the nucleus always emits some kind of particle(s). It is the high-energy emission of these particles that we call radiation. There are many different types of radioactive decay:Alpha decay results in the emission of an alpha particle (two neutrons and two protons)Beta decay results in the emission of a beta particle (an electron or a positron)Neutron decay results in the emission of a neutronProton decay results in the emission of a protonGamma decay results in the emission of a gamma particle (a photon)Neutrino decay results in the emission of a neutrino or antineutrinoIn some cases, a combination of the above emissions takes place. For example in double beta decay, a single nucleus emits two electrons and two antineutrinos in the same event.
Is a blue light radioactive?
If you mean radioactive as in atomic or nuclear, not necessarily. Light is radiation, regardless of its color, but not usually radioactive in and of itself. Atomic or nuclear radiation has no color.However, by the strictest definition, anything that emits radiation of any kind, such as a blue light bulb emitting blue light (which is radiation), could be considered radioactive.
What is the energy and matter released by radon gas that causes health concerns called?
The answer sought here might be ionizing radiation. Ionizing radiation comes in a couple of "flavors" as we know it. One is particulate radiation, and it involves a particle of some kind. The other is electromagnetic radiation, and it involves a "ray" or the like. Radon undergoes what is called radioactive or nuclear decay. 222Rn, the isotope of concern with radon, emits an alpha particle to decay. The alpha particle is two protons and two neutrons - a helium nucleus. This particle has very poor penetrating power. A sheet of paper will stop it. But radon is an inert gas, and if a person breathes in radon, even in small quantities, the alpha decay of radon in the lungs exposes soft tissue to terrible biological damage from the alpha particles. What's worse, the radon becomes polonium - another radioactive substance. Radon that is inhaled and undergoes radioactive (alpha) decay in the lungs has 7 more radioactive decays to go before becoming a stable isotope of lead. And each decay event further exposes local (and the same) tissue to heavy biological damage. Radon causes more lung cancer than most individuals know about.
Why does radioactive occur?
Radioactive decay is a natural process that occurs because a given atomic nucleus is unstable. The instability in the nucleus will eventually result in some kind of nuclear change (depending on the atom), and we call this radioactive or nuclear decay. Different radionuclides undergo different types of decay that include spontaneous fission, alpha decay and beta decay. Each of these is explained in separate questions, and they already have modestly good answers. You'll find links to those questions below, as well as links to some other Related questions.
