Determine Half-Lives & Initial Activities of 2 Isotopes - Q&A

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Homework Help Overview

The discussion revolves around determining the half-lives and initial activities of two isotopes from a sample that has undergone neutron activation. Participants are analyzing decay data recorded over time to extract relevant information about the isotopes involved.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss graphing the logarithm of the decay counts against time to identify trends. There is mention of observing two distinct linear segments in the data, which may correspond to the two isotopes. Questions arise about the interpretation of these slopes and their relation to half-lives.

Discussion Status

The discussion is progressing with participants sharing observations about the data trends and slopes. Some guidance has been offered regarding the interpretation of the slopes in relation to the isotopes' half-lives, and there is acknowledgment of the need to analyze the data further using tools like Excel.

Contextual Notes

Participants are working with a table of decay counts over time, and there is an emphasis on the initial conditions of the isotopes and their decay characteristics. The element in question has been identified as Antimony, which may influence the context of the isotopes being analyzed.

Soilwork
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Q. A sample of a certain element with two naturally occurring isotopes becomes
activated by neutron capture. After 1 hour in the reactor, it is placed in a
counting room, in which the total number of decays in 1 hour is recorded at
daily intervals. A summary of the recorded data appears below.
From the data, determine the (i) half-lives and (ii) initial activities of the 2
components. (iii) What is the element?

The thing with this question is that you're given a table with the time in one column and the total number of counts in the other column.
I know that if you take the natural log of the exponential decay function that you can find lambda and therefore the half-life.
But you have to find the half-life of two isotopes and I don't know how you can do that.
Any hint that can point me in the right direction would be greatly appreciated :)
 
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Make a graph of the log of the number of counts, versus time. What does it look like? (after mentally smoothing out any random wiggles, of course)
 
Yeah I get kind of two different straight lines.
The times given are as follows:
0,1,2,3,4,5,6,7,8,9,10,20,40,60,80,100,120,140,160,180,200.
So the first gradient is about 0.23 and is from the time scale of 0-10.
The second gradient is 0.0116 and is from 40 - 200.
This will give the two half lives of the isotopes, but I don't know why.
So the element is Antimony.
 
Soilwork said:
Yeah I get kind of two different straight lines.

That's what I suspected. The hypothetical sample started out with the number of decays being dominated by the short-lived isotope, so the initial slope reflects the shorter half-life. After most of the short-lived isotope has decayed, the decays observed are mostly from the long-lived isotope, so the second slope reflects the longer half-life.
 
Ahhh k thanks for that :)
So now I can just use the LOGEST function on Excel over the relevant points to find the intial activities of the two isotopes.
Thank you so much for explaining this.
 

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