Understanding Carbon Decay: Solving for Decay Rate

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Homework Help Overview

The discussion revolves around finding the decay rate of carbon, specifically using the decay constant, half-life, and number of atoms. Participants are exploring the relationship between these variables and how to properly apply the relevant equations.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to use a formula involving the decay constant and half-life but questions its validity due to discrepancies with textbook answers. Other participants provide alternative calculations for activity and suggest potential unit conversions.

Discussion Status

Participants are actively engaging with the problem, with some offering calculations and insights into unit conversions. There is a recognition of the need to clarify the units of the final answer, and a productive direction is emerging regarding the conversion of activity from annual to per minute rates.

Contextual Notes

There is a mention of the original answer being expressed in minutes, which may have contributed to the confusion in calculations. The discussion also highlights the importance of unit consistency in the context of decay rates.

jimmy42
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How can I find the decay rate of carbon? I have found the decay constant and I know the half life and the number of atoms. I think I have the data and I have the answer but I think I am using the wrong equation as my answer does not fit the books.

The decay constant I got as -1.209x10^-4

N = 6.5234X10^10

half life = 5730 years.

I tried this:

R = ln(2) N/half life

That did not work.
 
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The formula for finding the decay constant is: k = (ln2)/(half life) = 0.000121 years^-1

Activity = kN
Activity = (0.000121 years^-1)(6.5234*10^10) = 7.89*10^6 particles per year

It might be possible that they expressed their answer in Becquerel, as it is the SI unit for activity. What answer did they give?
 
Last edited:
The answer was given in minutes, It should be 15
 
jimmy42 said:
The answer was given in minutes, It should be 15
Then the answer is correct.

7.89*10^6 particles per year

(7.89*10^6)/(365*24*60) particles per minutes = 15.0138 particles per minutes

= 15
 
Yes thanks, i didn't think to convert it.
 

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