Why we called the Helium particle as alpha particle?

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Discussion Overview

The discussion revolves around the classification of alpha, beta, and gamma particles in the context of radioactivity, specifically addressing the nature of these particles, their effects on atomic numbers during decay processes, and the historical naming conventions associated with them.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants question why alpha particles are identified as helium nuclei and beta particles as electrons, suggesting it may be an accident of history related to their discovery order.
  • Gamma radiation is described as electromagnetic radiation, with participants noting it is more energetic than other forms of EM radiation.
  • There is a discussion about the effects of alpha and beta decay on atomic numbers, with some participants noting that alpha decay decreases the atomic number by 2, while beta decay increases it by 1.
  • Questions arise regarding gamma decay, particularly whether it affects atomic numbers, with some participants asserting that gamma rays have no charge and thus do not change atomic numbers.
  • One participant emphasizes the importance of understanding the relationship between atomic number and electrical charge when considering the effects of gamma decay.
  • Another participant mentions that gamma radiation occurs when a nucleus is excited and carries away excess energy, which may result from previous decay processes.

Areas of Agreement / Disagreement

Participants express uncertainty regarding the effects of gamma decay on atomic numbers, with some agreeing that gamma rays do not affect atomic numbers, while others seek further clarification on the implications of gamma emissions.

Contextual Notes

There are unresolved questions about the specific effects of gamma decay and the nuances of atomic mass versus atomic number, as well as the historical context of naming conventions for these particles.

123kid
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why we the alpha particle is taken as helium and beta as electron ?
and what about gamma particle ? what is that?
My 2nd question is that during alpha decay and beta decay there is decrease of 2 units in atomic number and one unit increase respectively ?
what happen in gamma decay ?
 
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Gamma radiation is electromagnetic radiation.
It's the most energetic kind of EM, much more energetic than X rays, visible light, radio, and other forms of electromagnetism.
The naming alpha/beta/gamma for the 3 basic kinds of radioactivity are simply the first 3 letter of the Greek alphabet, like a, b, c.
There is no particular reason why 'a' is helium nucleii, 'b' is electrons and 'c' is EM, but I'm guessing it may be to do with the ordering of the time of their discovery.
 
Last edited:
123kid said:
why we the alpha particle is taken as helium and beta as electron
It's an accident of history. We named the first kind of radiation discovered "alpha", the second "beta", and the third "gamma" after the first three letters in the Greek alphabet. Only later did we figure out the that the particles in alpha radiation were helium nuclei, the particles in beta radiation were electrons, and the particles in gamma radiation were...
and what about gamma particle ? what is that?
Highly energetic photons.

My 2nd question is that during alpha decay and beta decay there is decrease of 2 units in atomic number and one unit increase respectively ?
what happen in gamma decay ?
What do you think and why? Consider the electric charge of the various particles involved.
 
so is there photons also present in these atoms ? which emit during radioactivity in the form of gamma rays ?
 
Nugatory said:
What do you think and why? Consider the electric charge of the various particles involved.
sorry. i didn't get your question. I think what will happen with gamma decay ? as beta and alpha decay can change the atomic numbers and as a result a new element is formed.
 
123kid said:
sorry. i didn't get your question. I think what will happen with gamma decay ? as beta and alpha decay can change the atomic numbers and as a result a new element is formed.

Yes, emission of an alpha or beta particle changes the atomic number. You asked whether emitting a gamma particle would also change the atomic number and I told you try figuring it out for yourself first, and gave you a big hint that you should be thinking about the electrical charges of the various particles involved... and I'll even give you another big hint: What is the atomic number of a nucleus and how is it related to electrical charges?

(The Physics Forums rules discourage giving people answers until they've made an effort to figure things out for themselves first.)
 
Atomic number is the number of protons. A positive charge. Gamma rays have no charge. So no effect on atomic number ? Am i right ? is there any other effect of this emission of photons ?
 
When I was studying this for my GCSE physics course we only looked at the alpha and beta decay equations, however, my physics teacher did give me some room to wiggle here, so I studied Beta decay quite thoroughly, and here we go.

Beta decay

To find the answer to what you seek, you must answer me these questions three:
  1. What is atomic mass vs atomic number? Define the two terms and find the difference.
  2. What is the actual difference between protons and neutrons? Why is this? (You may find yourself looking into quarks here.)
  3. Beta decay has an increase in atomic number, and an emission of an electron, but no increase in simple atomic mass. How can you tie what you learned in the previous question to these facts?
Useful tips!
  • Electrons are not mass-less.
  • Protons and neutrons do not have the same mass.
  • When I said there was no change in atomic mass, I lied, there is a slight decrease.
  • Electrons are surprisingly insignificant to understanding what beta decay is, unless you are actually talking about the emission.

Hopefully, I've helped you discover the answer on your own here.
 
123kid said:
Atomic number is the number of protons. A positive charge. Gamma rays have no charge. So no effect on atomic number ? Am i right ?
Yes you are.

is there any other effect of this emission of photons ?
Only a reduction in the one thing that the gamma particle does carry away, namely energy. Gamma radiation happens when a nucleus is "excited", meaning that it has an excess of energy. Usually this happens because some previous decay released more energy than was carried away by the alpha or beta particles from that earlier decay - eventually the excess energy escapes as gamma particles.
 
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Thank you... Understood
 

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