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sniffer
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sniffer said:halo guys.
can somebody help me with this simple question please ...
seratend said:Ok.
See http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/beta.html#c5. It was this form of the energy spectrum that has required the physicists to introduce the neutrino in the beta decay reactions.
Seratend.
A beta-minus energy spectrum is a graphical representation of the distribution of energy emitted during beta-minus decay, a type of radioactive decay. This spectrum shows the different energy levels of the beta particles that are emitted during the decay process.
A beta-minus energy spectrum is typically measured using a device called a beta spectrometer. This instrument detects and measures the energy of the beta particles emitted during beta-minus decay and displays the data in the form of a spectrum.
A beta-minus energy spectrum can provide information about the type of radioactive material being studied and its decay process. It can also help determine the energy levels of the beta particles and the relative abundance of different energy levels.
The shape of a beta-minus energy spectrum can be influenced by several factors, including the type of radioactive material, the energy levels of the beta particles, and the presence of other particles or fields that may alter the decay process.
A beta-minus energy spectrum is an important tool in studying the properties of radioactive materials and their decay processes. It is used in various fields such as nuclear physics, astrophysics, and environmental science to understand the behavior of radioactive elements and their impact on the environment and human health.