Calculating Nuclear Cross Section for Materials

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Homework Help Overview

The discussion revolves around calculating the nuclear cross section for materials, specifically focusing on a scenario where the density of atoms is given, along with the percentage of neutrons stopped in a specified thickness of material.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants explore the relationship between the macroscopic and microscopic cross-sections, question the conversion of units, and discuss the implications of the given density and percentage of neutrons stopped.

Discussion Status

Some participants have offered guidance on unit conversions and the application of relevant formulas, while others express uncertainty about their calculations and seek further clarification on the concepts involved.

Contextual Notes

There are mentions of specific assumptions regarding the density and the percentage of neutrons stopped, as well as the need to convert units from meters to centimeters. Some participants also note the importance of maintaining unit consistency throughout the calculations.

Apollo14LMP
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Homework Statement



What is the cross section if the density of atoms in a material is 10^26 metres-3, and 0.04% of a beam of neutrons is stopped in a 2 cm slab of the material ?


Homework Equations



Sigma = event rate per nuclei / incident flux


The Attempt at a Solution



I have no idea ..
 
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If the density would be 1/meter^3 and 1% would be stopped in 1meter (imagine a cube of 1m side length with exactly one atom in it), can you calculate the cross-section?
Then you just have to scale this to get the original numbers.
 
Cant really visualise this ... but I guess there would 10^26m-3 with 0.04 % stopped in it ? I need to calculate the barns. Still not sure about the 2 cm mentioned ...

I have gone away and come up with the following -

I have converted the 10^26 m-3 to centimetres = 1.0000^32cm3

I have then calculated using a formula found on the internet

https://facultystaff.richmond.edu/~ggilfoyl/research/CrossSectionIntro.pdf

1.0000^32cm3 x 2cm x 6.022^23 / 0.04 = 3.00 x 10^57

I cannot see where I am wrong but some advice would be a big help

I am assuming you must convert the m-3 to cm3, and calculated my answer as per the research article I found. Thank you
 
Last edited:
Apollo14LMP said:

Homework Statement



What is the cross section if the density of atoms in a material is 10^26 metres-3, and 0.04% of a beam of neutrons is stopped in a 2 cm slab of the material ?

Homework Equations



Sigma = event rate per nuclei / incident flux

The Attempt at a Solution



I have no idea ..
Can one write the relationship between the macroscopic cross-section, ∑, and the microscopic cross-section, σ, which is what one wishes to find?

Then write the equation for attenuation of particles passing through a slab of material, i.e., write the equation for dI(x)/dx, where I(x) is the beam intensity as a function of distance from the surface into the material.
 
The formula uses the density in g/cm^3 and uses the Avogadro constant to convert this to atoms/cm^3. You know atoms/cm^3 so you can skip that step in the formula.

This is easier to see if you work with units everywhere (a good habit in general).
 
Thank you for your help ..

0.04 % / 1.0000^32cm3 x 2cm = 8.00 x 10^-34

that is N events (0.04%) / beam particles per unit area (1.0000^32cm3 / target particles (2cm)
 
The units are missing, but apart from that it looks good.
 
Thanks struggled to solve that you have both been very helpful .. I appreciate your time and trouble so much ..
 

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