Investigating Particles Emitted by Radioactive Substances

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Homework Help Overview

The discussion revolves around the types of particles emitted by radioactive substances and the effects of a magnetic field on these particles, particularly in the context of a Geiger counter's detection capabilities.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the nature of different types of radiation, including alpha, beta, and gamma particles, and their interactions with magnetic fields. Questions arise regarding the specific effects of a magnet on alpha particles and the implications for detection by a Geiger counter.

Discussion Status

The discussion is active, with participants providing insights into the characteristics of various particles and their susceptibility to magnetic fields. There is an ongoing inquiry into the implications of these characteristics for detection methods, particularly concerning the original poster's scenario.

Contextual Notes

Participants are examining the influence of a magnet on different types of radiation, questioning assumptions about detection and interaction without reaching a definitive conclusion.

Matthias32
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A magnet is directly between a Geiger counter and a radioactive material. If no radioactivity is registered, what kind of particles are being emitted by the radioactive substance?
 
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What are the different types of radiation? Then think about how a magnet could affect (or not affect) each one.
 
\alpha particles are helium cores, so ^4_2He^{2+} particles. Their charge makes them succeptible to magnetic fields.

\beta particles are electrons so ^{0}_{-1}e^- which are charged and as such succeptible to magnetic fields, however they move very fast and are in that sense relatively immune to such interactions.

\gamma particles are just photons without charge which means they should not be affected by the field.

Conclusion, most likely you had an \alpha emitter.
 
So what does the magnet do to the Alpha particles?

So what does the magnet do to the Alpha particles that keeps
them from being detected by the Geiger counter?
 
it attracts them and it might deflect them from the geiger counter.

My point was that you first have to look at the differences between the types of radiation and the influence the magnet might have on them.
 
Nerro said:
\alpha particles are helium cores, so ^4_2He^{2+} particles. Their charge makes them succeptible to magnetic fields.

\beta particles are electrons so ^{0}_{-1}e^- which are charged and as such succeptible to magnetic fields, however they move very fast and are in that sense relatively immune to such interactions.

\gamma particles are just photons without charge which means they should not be affected by the field.

Neutral particles are not affected by magnetic fields.

Remember, Fmag = q (v x B)
 
which particle would you call neutral here?
 

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