Nuclear u-235 and u-238 isotope half life question

AI Thread Summary
The discussion revolves around calculating the U-235/U-238 isotopic ratio from 2 billion years ago, when the Oklo natural reactor was active. The current isotopic ratio is 0.00723, with U-238 having a half-life of 4.51 billion years and U-235 a half-life of 713 million years. The decay constants for U-235 and U-238 were calculated as 9.72 x 10^-10 and 1.54 x 10^-10 per year, respectively. A suggestion was made to divide the activity equations for both isotopes to find the ratio over time, leading to a calculated ratio of 0.1947, which the user doubts is correct. Further clarification and tips on radioactive decay calculations were requested to confirm the accuracy of the results.
debwaldy
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Homework Statement



The present day value of the uranium isotopic ratio U-235/U-238 is 0.00723. The half life of U-238 is 4.51 x 10^9 and the half life of U-235 is 7.13 x 10^8 years. What was the U-235/U-238 isotopic ratio 2 billion years ago when the Oklo natural reactor was active?

Homework Equations


T1/2 = ln (2) / λ
τ = 1/λ
N(t) = No e^(-kt)


The Attempt at a Solution




Calculated the decay constant lambda for each isotope:

U-235: λ = 9.72 x 10^-10 per year

U-238: λ = 1.54 x 10^-10 years,

I'm not sure how to proceed or what I need to do next

New to this radioactive decay stuff so any tips or suggestions would be much appreciated.

Thanks,
Debbie
 
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You have 2 equations, one for the activity of U-235 and one for the activity of U-238, each as a function of time. What happens when you divide one by the other?
 
As in the equation N(t) equations? will the No be different in each case?
 
If i do this and substitute in t = 2 billion years i get a ratio of 0.1947, although I don't think that this is correct?
 

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