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Radioactive emissions consist of Alpha, Beta and Gamma radiation. These are emitted from the nucleus of an radioactive isotope in different conditions, the condition of the nucleus will therefore decide what the main type of radioactive emission will be given off. For example alpha emissions occur mostly when the Nuclei is massive and needs to eject both protons and neutrons in the form of a helium nucleus. Beta emissions occur when the Nucleus is rich in Neutrons and is the emission of an electron and an anti-neutrino from the nucleus of a radioactive isotope, this causes one of the neutrons in the nucleus to therefore become a proton as the antineutrino and electron are released, enducing a charge. Finally, Gamma radiation is a method of releasing energy from a nucleus in the form of electromagnetic wave when an excess energy is present. This occurs mainly after Alpha or Beta decay and Gamma radiation never occurs alone, it also occurs during Alpha and Beta decay. With regards to the size and speed of the emissions, alpha is a strongly ionising, weakly penetrating emission which moves slowly. The strong ionising potential of Alpha is due to its charactoristics as a highly charged helium nucles (+2 charge) with a large density, this means that it can ionise many particles in a short space of time but only moves slowly. This ability to strongly ionise also effects its range as it soon runs out of energy to decay particles, explaining its short range. Beta decay is lighter and has less charge which would explain the longer ionisation range but the smaller ionisation energy. A beta particle moves at a high velocity as it has a small mass and has not got a large ionisation energy and so can ionise longer distances and can therefore travel further. Finally, Gamma can penetrate very large distances due to its lack of charge and ionising power. The poperties of Gamma radiation as an electromagnetic wave also allow it to travel at a high velocity, the speed of light, as it is emitted to release excess energy only and is not emitted in order to change the charge of the nucleus and so has very little ionising potential.
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what represents a gamma emissions?
Gamma emissions are a type of high-energy electromagnetic radiation emitted from a radioactive nucleus during radioactive decay. They have the shortest wavelength and highest frequency of all types of radiation, and they can penetrate matter more effectively than alpha or beta radiation. Gamma emissions are often associated with the release of excess energy from an unstable nucleus as it transitions to a more stable state.
What are the key differences between stable and unstable nuclei?
Stable nuclei have a balanced number of protons and neutrons, while unstable nuclei have an imbalance. Unstable nuclei undergo radioactive decay to become more stable.
What is the relationship between time and the decay of radioactive substances as shown in the graph of radioactive decay?
The relationship between time and the decay of radioactive substances is shown in a graph of radioactive decay by demonstrating how the amount of radioactive material decreases over time. This decay occurs at a consistent rate, known as the half-life, which is the time it takes for half of the radioactive material to decay. The graph typically shows a gradual decrease in the amount of radioactive substance as time progresses, following an exponential decay curve.
Which is not an environmental consequence of nuclear energy?
Water pollution
Are there physical differences between boys and girls?
Yes, there are physical differences between boys and girls. These differences include differences in anatomy, reproductive systems, hormones, muscle mass, and bone density.
What radioactive emissions are not particles?
Gamma rays.
Which radioactive emissions is not a particle Alpha Neutron or Gamma?
Gamma.
What are the radioactive emissions that have the greatest penetrating power?
Gamma rays
Where in the atom do radioactive emissions originate?
They originate in the nucleus of the atom.
What is the differences between potential energy and nuclear energy?
potential energy is stored energy. nuclear energy is radioactive
What are the key differences between t2g and eg in terms of their impact on the environment?
The key differences between t2g and eg in terms of their impact on the environment are their sources and effects. T2g emissions come from transportation and are a major contributor to air pollution and greenhouse gas emissions. EG emissions, on the other hand, come from energy generation and can lead to air and water pollution. Both types of emissions have significant environmental impacts, but their sources and effects differ.
What is the name for the emission of rays and particles by a radioactive material?
The name for the emissions of rays and particles by a radioactive material are called radioactive decay. There are many different types of radioactive decay that emit different rays and particles.
Who discovered radioactive decay in 1898?
ernest Rutherford _______________________________________________________________ Radioactive decay was actually discovered in 1896 by Henri Bacquerel. Ernest Rutherford discovered the formula of radioactive decay (Such as the falk-life, differences between alpha and beta decay and even how the elements become new elements after the decay), but he did not discover the radioactive decay himself.
What radioactive emissions are not a particle Neutron Alpha Proton Beta Gamma Ray?
Gamma Ray
What are the differences in CO2 emissions between propane and natural gas?
Propane produces more CO2 emissions than natural gas when burned because it has a higher carbon content. This means that using propane for heating or cooking can contribute more to greenhouse gas emissions compared to natural gas.
What is nuclei that has unstable decay known as?
Atomic nuclei that are unstable and decaying are said to be radioactive. Radioactive decay involves alpha, beta and gamma particle emissions.
Why does radioactive source give out radiation?
Radioactive decay happens when an unstable atom cannot hold itself together, and pieces of it fly out. The pieces include the emissions we call radiation.
