Solving Gamma-Ray & X-Ray Photon Questions: Help Needed

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SUMMARY

This discussion addresses the calculation of the wavelength of a gamma-ray photon with an energy of 1.6 x 10-15 Joules and compares it to an X-ray photon of the same energy. The wavelength is determined using the formula λ = (Vh)/E, where V is the speed of light in a vacuum (c). The calculated wavelength is approximately 1.2 x 10-10 meters, placing it within the X-ray region of the electromagnetic spectrum. The discussion concludes that both X-ray and gamma-ray photons are fundamentally the same when their energies are identical, with terminology differences based on the source of radiation.

PREREQUISITES
  • Understanding of Planck's constant and its role in photon energy calculations.
  • Familiarity with the electromagnetic spectrum, particularly X-rays and gamma rays.
  • Knowledge of the relationship between wavelength, frequency, and speed of light.
  • Basic principles of photon behavior and material penetration.
NEXT STEPS
  • Study the application of Planck's equation (E=hf) in various contexts.
  • Explore the electromagnetic spectrum and the distinctions between X-rays and gamma rays.
  • Learn about photon penetration capabilities in different materials.
  • Investigate the sources of X-ray and gamma-ray emissions in practical scenarios.
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Students in physics, radiology professionals, and anyone interested in the properties and applications of electromagnetic radiation, particularly in medical imaging and nuclear physics.

siresam88
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A Problem To far !

6a) Calculate the wavelength of a gamma - ray photon which has an energy of 1.6 *10-15

6b) An x ray is generated which has the same energy as the gamma ray described in part(a) compare these two photons of their:

(i) Speed of transmission in a vacuum.

(ii) Ability to penetrate a given material.

If somebody could help me with these questions i would be delighted
 
Last edited:
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I'm not sure I understand the question completely, but:
Energy of the wave is equal to plank's constant by the frequency,
E=hf
And the velocity is equal to the wavelength by the frequency
V=fλ
So you get:λ=(Vh)/E
If you're in a vacuum, V=c, the speed of light in a vacuum, otherwise you need a ratio of refraction.
However, when this is computed with the 1.6*10^-15 J (Joules I'm assuming), you get about 1.2*10^-10 m, which is in the X-ray part of the electromagnetic spectrum.
 
Part b is a trick question. It's supposed to illustrate that x and gamma are both photons, and if the energy of the two photons is identical there no difference between them. The terms xray and gamma ray are somewhat interchangable. We tend to call the low energy end x and the high gamma, but there is a lot of overlap. The source of the radiation influences what we call it also. For example, we tend to call photons from nuclear decay gamma and from electonic equipment xray (like your dentist's xray machine)
 

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