Are Gamma Rays Always Part of Nuclear Reactions?

In summary, gamma radiation is emitted when an atom decays. The decay process may release alpha, beta, or gamma radiation. Gamma radiation is most often emitted when the atom is in an excited state.
  • #1
frozonecom
63
0
Making it short : Do gamma rays ALWAYS accompany a nuclear reaction??

I was thinking, since there are only three types of radioactive decay, alpha, beta and gamma. I don't quite understand how gamma radiation will always occur. Isn't it going to be just ONE of the three types?

/Help :)
 
Science news on Phys.org
  • #2
frozonecom said:
Making it short : Do gamma rays ALWAYS accompany a nuclear reaction??

I was thinking, since there are only three types of radioactive decay, alpha, beta and gamma. I don't quite understand how gamma radiation will always occur. Isn't it going to be just ONE of the three types?

/Help :)

Gamma rays are (very) high energy electromagnetic radiation carrying away some of the energy produced by the decay. So just about any reaction can produce some amount of gamma radiation - all that's necessary is that the reaction release enough energy.

If you want an analogy: You can burn many different fuels in many different chemical reactions and end up with many different combustion byproducts, but you'll likely always get some amount of heat as one of the outputs.
 
  • #3
Nugatory said:
Gamma rays are (very) high energy electromagnetic radiation carrying away some of the energy produced by the decay. So just about any reaction can produce some amount of gamma radiation - all that's necessary is that the reaction release enough energy.

If you want an analogy: You can burn many different fuels in many different chemical reactions and end up with many different combustion byproducts, but you'll likely always get some amount of heat as one of the outputs.

So there aren't any reaction not accompanied by the release of gamma rays? I was having a hard understanding these concepts. Thanks for replying.

EDIT: I'm asking since your word likely always was kind of vague. So, when are the times that gamma radiation will not occur?

EDIT 2: I also saw it here: http://www.ndt-ed.org/EducationResources/CommunityCollege/Radiography/Physics/gamma.htm
in the animation, it also says Gamma Decay / radiation ALMOST ALWAYS accompany alpha and beta decay. Same thing I'm not understanding: When does it not accompany nuclear decay processes?
 
Last edited:
  • #4
frozonecom said:
Making it short : Do gamma rays ALWAYS accompany a nuclear reaction??

An interesting question. I want to say that no, not all nuclear reactions cause gamma rays. For example, take Tritium, the unstable isotope of Hydrogen. It decays by beta decay and is used in products like gun sights to make them glow. I don't know for sure, but I would think that there would be little to no gamma radiation, otherwise it wouldn't be a safe product.

I was thinking, since there are only three types of radioactive decay, alpha, beta and gamma. I don't quite understand how gamma radiation will always occur. Isn't it going to be just ONE of the three types?

/Help :)

There are more than three types of decay. See here: http://en.wikipedia.org/wiki/Decay_mode#Decay_modes_in_table_form
Gamma radiation is defined as EM radiation emitted from the nucleus of an atom. An atom can easily decay and release more than one type of radiation. This can occur if the nucleus remains in an excited state after the decay, releasing a gamma ray photon when it makes the transition from the excited to the ground state.
 
  • #5
^Thanks. Giving the Tritium example made me understand it better.. :)

I also searched on the Tritium case and found out that after an electron is ejected, a small difference in energy with both sides of the equation (see website) exists. I can't really explain in that well but the website kinda does a great job explaining. Here's the quote I'm saying:

As you said, the proton has slightly less mass than the neutron. The mass of the electron makes up for this somewhat, but if you do the math, you'll see that there's still some mass "missing" from the right side of the reaction. Energy takes up the slack: the electron comes out moving very fast, i.e., with lots of kinetic energy.

In other reactions, the "leftover" energy sometimes manifests itself in different ways. For example, the nucleus that comes out is sometimes in an excited state--the remaining protons and neutrons have more energy than usual. The atom eventually gets rid of this extra energy by giving off a gamma ray.

So, I kinda "get" where ALMOST ALWAYS came from. It's because the "excess" energy can be given to the ejecting particle, accelerating it, making the particle eject faster, OR the excess energy can be given off as a GAMMA RADIATION. So, there's really two possibilities, but GAMMA RADIATION happens more often.

Thanks for the help! :)

http://www.colorado.edu/physics/2000/isotopes/radioactive_decay.html
http://www.colorado.edu/physics/2000/isotopes/mass_conservation.html
 
Last edited by a moderator:

Related to Are Gamma Rays Always Part of Nuclear Reactions?

1. Are gamma rays always produced in nuclear reactions?

No, gamma rays are not always produced in nuclear reactions. The emission of gamma rays depends on the specific type of nuclear reaction taking place. In some cases, other types of radiation such as alpha or beta particles may be produced instead.

2. What causes gamma rays to be produced in nuclear reactions?

Gamma rays are produced when the nucleus of an atom undergoes a change, such as radioactive decay or fission. During this process, excess energy is released in the form of gamma rays, which are high-energy electromagnetic radiation.

3. Can gamma rays be controlled in nuclear reactions?

No, gamma rays cannot be controlled in nuclear reactions. They are a natural byproduct of the reaction and their emission cannot be altered or stopped. However, proper shielding and safety measures can be implemented to minimize exposure to gamma rays.

4. Are gamma rays harmful in nuclear reactions?

Yes, gamma rays can be harmful in nuclear reactions. They are high-energy radiation and can cause damage to living cells, including DNA. Exposure to high levels of gamma radiation can lead to radiation sickness and even death.

5. Can gamma rays be used for anything other than nuclear reactions?

Yes, gamma rays have many practical applications outside of nuclear reactions. They are used in medical imaging, cancer treatment, and industrial processes such as sterilization and food preservation. They are also used in research and development for materials testing and studying the properties of matter.

Similar threads

Can Geiger Counter Ticks be converted into particle/wave counts?
    • Introductory Physics Homework Help
Replies
12
Views
326
How to calculate gamma ray energies following beta decay?
    • Introductory Physics Homework Help
Replies
12
Views
194
Troubleshooting Nuclear Reactions: Decay, Gamma Rays & More
    • Advanced Physics Homework Help
Replies
8
Views
909
I Beta and gamma rays from radium
    • High Energy, Nuclear, Particle Physics
Replies
1
Views
1K
Would wearing sunscreen help during a nuclear disaster/attack?
    • Nuclear Engineering
Replies
16
Views
2K
B Distance covered when 22 MeV gamma rays travel through air
    • High Energy, Nuclear, Particle Physics
Replies
22
Views
3K
B Prevalence of nuclear decays accompanied by gamma emission
    • High Energy, Nuclear, Particle Physics
Replies
1
Views
824
Writing: Input Wanted Can a Gamma-Ray Burst Affect Communication Devices?
    • Sci-Fi Writing and World Building
Replies
6
Views
847
I Question on multiple rebrightening gamma ray bursts and gravity waves
    • Cosmology
Replies
9
Views
1K
B Can alpha radiation make other materials radioactive?
    • High Energy, Nuclear, Particle Physics
Replies
6
Views
1K

Hot Threads

Recent Insights

Back
Top