Is the Compton Wavelength of a Sodium Atom Comparable to X-ray Wavelengths?

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Homework Help Overview

The discussion revolves around the comparison of the Compton wavelength of a sodium atom with typical X-ray wavelengths, specifically addressing the assumption that X-rays scattered by a crystal undergo no change in wavelength. The subject area includes concepts from quantum mechanics and X-ray physics.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the reasoning behind the assumption that X-rays do not change wavelength during scattering and question the relevance of the Compton wavelength in this context. There are inquiries about the lack of an angle in the problem and its implications for the Compton effect equation.

Discussion Status

Some participants have provided calculations and clarifications regarding the Compton wavelength and its relation to X-ray scattering. There is an ongoing exploration of the distinctions between Compton scattering and X-ray diffraction, with no explicit consensus reached on the implications of these concepts.

Contextual Notes

Participants note the absence of specific information, such as the angle needed for the Compton effect equation, which raises questions about the completeness of the problem setup.

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for the following question:
x-rays scattered by a crystal are assumed to undergo no change in wavelength. show that this assumption is reasonable by calculating the compton wavelength of a Na atom and comparing it with the typical x-ray wavelength of 0.1nm.

my problems:
1) why doesn't x-rays undergo any change in the first place?
2) the question doesn't give you an angle, so won't there be 2 variables in
the compton effect equation?
 
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The Compton wavelength of a particle is given by [itex]\lambda_C = h/mc[/itex] where m is the mass of the particle. The Na atom has an atomic mass of approximately 23 amu = 23*1.66x10-27 kg.

Compare that wavelength to the 0.1 nm.

X-ray scatter (as opposed to Compton scattering) is the basis of X-ray diffraction which is used to measure the distance between atoms in a crystal, i.e. lattice constant.

The problem is not asking about Compton scattering where an electron is displaced by an X-ray.

See - http://en.wikipedia.org/wiki/X-ray_crystallography
 
Last edited:
opps~
thank you very much! :)
 
hang on a second...
if that has nothing to do with the compton effect, then why's it called the compton wavelength?
 
The Compton wavelength is a constant in the Compton scattering equation. By calculating it you should see that the scale of the Compton effect is small compared to the original wavelength.
 

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